Electronic device and method of controlling electronic device

ABSTRACT

Provided are an electronic device capable of providing text information corresponding to a user voice through a user interface and a method of controlling the electronic device. Specifically, an electronic device according to the present disclosure, when an image including at least one object is obtained, analyzes the image to identify the at least one object included in the image, and when a user voice is received, performs voice recognition on the user voice to obtain text information corresponding to the user voice, then identifies an object corresponding to the user voice among the at least one object included in the image, and displays a memo user interface (UI) including text information on an area corresponding to the object identified as corresponding to the user voice among areas on a display.

TECHNICAL FIELD

The disclosure relates to an electronic device and a method ofcontrolling an electronic device. More particularly, the disclosurerelates to an electronic device capable of providing text informationcorresponding to a user voice through a user interface and a controllingmethod thereof.

BACKGROUND ART

Recently, as technology using voice recognition is applied to electronicdevices of various types, a user is able to generate text information byuttering the user voice and display the generated text information on adisplay without having to directly input the text information.

However, according to related art, in order for a user of an electronicdevice to generate text information in the electronic device by usingvoice recognition and display at an area on the display desired by theuser, there is the disadvantage of having to endure the inconvenience ofperforming a number of steps such as, for example, and withoutlimitation, executing an application for generating text information,inputting a trigger input for voice recognition, uttering the user voicecorresponding to the text information, designating a position at whichthe text information is to be displayed, designating a size and form inwhich the text information is to be displayed, and the like.

Accordingly, there is a growing need for intuitive and simple technologycapable of performing a series of processes that obtain the textinformation corresponding to the user voice and display the obtainedtext information at an area on the display desired by the user.

DISCLOSURE Technical Problem

Aspects of the disclosure are to address at least the above-mentionedproblems and/or disadvantages and to provide at least the advantagesdescribed below. Accordingly, an aspect of the disclosure is to providean electronic device capable of providing text information correspondingto a user voice through a user interface in an intuitive and a simplemethod and a controlling method thereof.

Technical Solution

According to an embodiment, an electronic device includes a display, amicrophone, a memory configured to store at least one instruction, and aprocessor configured to execute the at least one instruction, and theprocessor is configured to identify, based on an image including atleast one object being obtained, at least one object included in theimage by analyzing the image, obtain, based on a user voice beingreceived through the microphone, text information corresponding to theuser voice by performing voice recognition on the user voice, identifyan object corresponding to the user voice from among the at least oneobject included in the image, and control the display to display a memouser interface (UI) including the text information on an areacorresponding to the object identified as corresponding to the uservoice from among the areas on the display.

According to an embodiment, a control method of an electronic deviceincluding a display includes identifying, based on an image including atleast one object being obtained, at least one object included in theimage by analyzing the image, obtaining, based on a user voice beingreceived, text information corresponding to the user voice by performingvoice recognition on the user voice, identifying an object correspondingto the user voice from among the at least one object included in theimage, and displaying a memo user interface (UI) including the textinformation on an area corresponding to the object identified ascorresponding to the user voice from among the areas on the display.

DESCRIPTION OF DRAWINGS

FIG. 1 is a conceptual diagram illustrating in brief a control processof an electronic device according to the disclosure;

FIG. 2 is a flowchart illustrating a control method of an electronicdevice according to an embodiment of the disclosure;

FIG. 3A is a block diagram illustrating in brief a configuration of anelectronic device according to the disclosure;

FIG. 3B is a diagram illustrating an embodiment of the disclosure basedon a coupling relationship between a hardware configuration of theelectronic device 100 as illustrated in FIG. 3A and a software moduleaccording to the disclosure;

FIG. 4 is a diagram illustrating in greater detail an object recognitionprocess according to the disclosure;

FIG. 5 is a diagram illustrating in greater detail a voice recognitionprocess according to the disclosure;

FIG. 6 is a diagram illustrating an embodiment of an electronic deviceidentifying an object corresponding to a user voice based on textinformation corresponding to the user voice;

FIGS. 7A to 7C are diagrams illustrating an embodiment of an electronicdevice identifying an object corresponding to a user voice based on atouch interaction of the user;

FIGS. 8A and 8B are diagrams illustrating an embodiment related todisplaying a size and form of a memo UI differently based on a touchinteraction of a user;

FIGS. 9A and 9B are diagrams illustrating various forms related to amemo UI according to the disclosure;

FIG. 10A is a diagram illustrating comprehensively an embodiment of aprocess identifying an object corresponding to a user voice according tothe disclosure and a case in which there are two or more objectscorresponding to a user voice;

FIG. 10B is a diagram illustrating an embodiment of displaying a memo UIon an area to which a touch interaction of a user is received on adisplay;

FIGS. 11A and 11B are diagrams illustrating in detail an embodimentrelated to providing a selecting UI when there are two or moreidentified objects which correspond to a user voice;

FIG. 12 is a diagram illustrating an embodiment related to a pronounbeing included in text information corresponding to a user voice;

FIG. 13A is a diagram illustrating an embodiment related to informationon a user name being included in text information corresponding to auser voice;

FIG. 13B is a diagram illustrating an embodiment related to informationon a duration of an object being included in text informationcorresponding to a user voice;

FIG. 13C is a diagram illustrating an embodiment related to informationon a user intent being included in text information corresponding to auser voice;

FIG. 14 is a diagram illustrating an embodiment related to displaying amemo UI on a home screen provided through an electronic device;

FIGS. 15A and 15B are diagrams illustrating an embodiment related to aposition of an object corresponding to a user voice being moved orhaving disappeared;

FIG. 16 is a diagram illustrating in brief a structure of a refrigeratorrelated to the disclosure based on an electronic device according to thedisclosure being a refrigerator;

FIG. 17 is a block diagram illustrating in detail a configuration of anelectronic device according to the disclosure;

FIGS. 18A and 18B are diagrams illustrating an embodiment related to anindicator being provided according to the disclosure; and

FIG. 19 is a diagram illustrating an embodiment of an object recognitionand a voice recognition process according to the disclosure beingperformed through a server connected with an electronic device.

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS

One or more embodiments of the disclosure will be described in detailbelow with reference to the accompanying drawings to assist those ofordinary skill in the art to which the disclosure pertains to easilycomprehend the disclosure.

FIG. 1 is a conceptual diagram illustrating in brief a control processof an electronic device 100 according to the disclosure.

As illustrated in FIG. 1 , the electronic device 100 may receive a uservoice and display a memo user interface (UI) based on the received uservoice. Here, the memo UI may refer to a user interface including anobtained text information. The detailed description on the variousinformation included in the memo UI will be described below.

Meanwhile, according to the various embodiment of the disclosure, anarea in which the memo UI is displayed on the display 110 of theelectronic device 100 may be determined based on at least one from amongthe user voice and a touch interaction of the user. The process ofdetermining an area in which the memo UI is displayed on the display 110of the electronic device 100 will be described in detail below.

The electronic device 100 may obtain an image including at least oneobject. Then, based on the image including at least one object beingobtained, the electronic device 100 may identify the at least one objectincluded in the image by analyzing the obtained image. For example, asillustrated in FIG. 1 , based on the electronic device 100 being arefrigerator, the electronic device 100 may obtain an inside image ofthe refrigerator by capturing the inside of the refrigerator, andidentify an object such as a “cabbage”, a “broccoli”, a “grape”, a“juice” and a “sandwich” as at least one object included in the obtainedimage. However, it should be noted that the electronic device 100according to the disclosure as described as an example is not limited toa refrigerator.

Meanwhile, the electronic device 100 may receive the user voice. Then,based on the user voice being received, the electronic device 100 mayobtain text information corresponding to the user voice by performing avoice recognition on the received user voice. For example, asillustrated in FIG. 1 , based on a user voice being received, theelectronic device 100 may perform a voice recognition on the receiveduser voice, and obtain text information such as “eat the cucumbersandwich and also give Tommy a snack” as text information correspondingto the user voice.

Meanwhile, the electronic device 100 may identify an objectcorresponding to the received user voice from among the at least oneobject identified as included in the image. Specifically, the objectcorresponding to the user voice may be identified based on at least onefrom among text information corresponding to the user voice and areceived touch interaction of the user.

Specifically, based on information on the at least one object includedin the image being included in the obtained text information, theelectronic device 100 may identify the object corresponding to theinformation on the at least one object included in the obtained textinformation as an object corresponding to the user voice. For example,as illustrated in FIG. 1 , based on information on an object such as a“cucumber sandwich” being included in the obtained text information, theelectronic device 100 may identify the “cucumber sandwich” as the objectcorresponding to the user voice.

Meanwhile, based on a touch interaction of the user being received onthe display 110, the electronic device 100 may identify the objectcorresponding to an area in which the touch interaction of the user isreceived from among the areas on the display 110 as the objectcorresponding to the user voice. For example, as illustrated in FIG. 1 ,based on a touch interaction 10 of the user being received on one areafrom among the areas on the display 110, the electronic device 100 mayidentify the “cucumber sandwich” which is the object corresponding tothe area in which the touch interaction is received as the objectcorresponding to the user voice.

Meanwhile, the touch interaction of the user may be received while theuser voice is being received, but the disclosure is not limited thereto.That is, the touch interaction of the user according to the disclosuremay be received prior to the user voice is received or after the uservoice is received. The point in time at which the touch interaction ofthe user is received and the various embodiments thereof will bedescribed below with particular reference to FIG. 10B.

As described above, based on the object corresponding to the user voicebeing identified, the electronic device 100 may display a memo UI 20including text information on an area corresponding to the objectidentified as corresponding to the user voice from among the areas onthe display 110.

According to an embodiment as described above, the electronic device 100may, in displaying the memo UI including text information correspondingto the user voice, display the memo UI on an area which corresponds withan intuitive recognition of the user that utters the user voice fromamong the areas on the display 110.

FIG. 2 is a flowchart illustrating a control method of an electronicdevice 100 according to an embodiment of the disclosure.

As illustrated in FIG. 2 , the electronic device 100 may obtain an imageincluding at least one object (S210). Specifically, the electronicdevice 100 may obtain an image including at least one object through acamera included in the electronic device 100, and receive and obtain animage including the at least one object from an external device.

Based on the image including the at least one object being obtained, theelectronic device 100 may identify the at least one object included inthe obtained image (S220). Specifically, the electronic device 100 mayidentify the at least one object included in the obtained image byanalyzing the obtained image. Because the process of analyzing theobtained image may be performed through a so-called object recognitionmodule, the image analysis or the object recognition process through theobject recognition module will be described with reference to FIG. 4 .

Meanwhile, the range of object to be identified as a result of objectrecognition regarding the image may be pre-set according to a type ofthe electronic device, a user setting, or the like. For example, basedon the electronic device 100 being a refrigerator, the range of theobject which is the subject of identification based on objectrecognition on an inside image of the refrigerator may be pre-set to arange to include only food products arranged inside the refrigerator,and exclude a shelf inside the refrigerator or an inner structure suchas a storage container. At this time, an artificial intelligence modelused to identify the object may be implemented as an artificialintelligence model trained to identify objects limited to found producttypes.

The electronic device 100 may receive the user voice (S230).Specifically, the electronic device 100 may receive the user voicethrough a microphone included in the electronic device 100, and receivethe user voice from an external device. Here, the external device mayinclude a user terminal such as a smart phone or a remote control devicefor controlling the electronic device 100. That is, the user terminal orthe remote control device may receive the user voice through themicrophone included in the user terminal or the remote control device,and transmit the received user voice to the electronic device 100.Accordingly, the electronic device 100 may receive the user voice fromthe user terminal or the remote control device.

Based on the user voice being received, the electronic device 100 mayobtain text information corresponding to the received user voice (S240).The electronic device 100 may obtain text information corresponding tothe user voice by performing a voice recognition on the received uservoice. Specifically, because the voice recognition on the received uservoice may be performed through a so-called automatic speech recognition(ASR) module, the process of voice recognition through the ASR modulewill be described with reference to FIG. 5 .

Meanwhile, the received user voice may be the subject of voicerecognition in its entirety, but only a portion from among the receiveduser voice may also be the subject of voice recognition. Here, the uservoice which is the subject of voice recognition may be specified basedon a pre-set starting point and an end point.

Specifically, the starting point for specifying the user voice which isthe subject of voice recognition may be the point in time in which atrigger input for performing the voice recognition is received. That is,based on the trigger input being received, the electronic device 100 mayperform voice recognition on the received user voice after the triggerinput is received, and obtain text information corresponding to the uservoice.

According to an embodiment of the disclosure, the trigger input may bereceived through the touch interaction of the user received on thedisplay. In other words, specifically, based on the pre-set touchinteraction of the user which corresponds to the trigger input beingreceived on the display, the electronic device 100 may perform voicerecognition on the received user voice after the touch interaction ofthe user is received, and obtain text information corresponding to theuser voice. For example, based on a multi-touch interaction whichtouches two or more points on the display concurrently being pre-set ascorresponding to the trigger input for performing voice recognition, theelectronic device 100 may perform voice recognition on the received uservoice after the multi-touch interaction is received, and obtain textinformation corresponding to the user voice. As another example, thetouch interaction received on the display being maintained for threeseconds may be pre-set as a touch interaction corresponding to thetrigger input.

Meanwhile, the trigger input may be received through the user voicewhich includes a pre-set trigger word. For example, based on the uservoice of “hi ABC, I bought beer, drink it after work” being receivedwhen “hi ABC” is the pre-set trigger word, voice recognition on “boughtbeer, drink it after work” which is the user voice that is receivedafter “hi ABC” is received may be performed, and text informationcorresponding to the user voice may be obtained.

Meanwhile, the end point for specifying the user voice which is thesubject of voice recognition may be the point in time specified throughEnd Point Detection (EPD) technology of various types. For example, theuser voice which is the subject of voice recognition may be specified bydividing a voice segment and a non-voice segment from the received uservoice based on edge information on the user voice, frequencycharacteristic information, or the like.

According to an embodiment of the disclosure, the end point forspecifying the user voice which is the subject of voice recognition maybe the point in time at which the touch interaction of the user receivedon the display is terminated. Specifically, the touch interaction of theuser as described above may be received on the display and the receivedtouch interaction may be maintained on the display. Then, the electronicdevice 100 may receive the user voice while the touch interaction of theuser is being maintained on the display. Thereafter, when the touchinteraction of the user which was being maintained on the display isterminated, the electronic device 100 may perform voice recognition onthe user voice which was received until the point in time at which thetouch interaction of the user is terminated, and obtain text informationcorresponding to the user voice.

As in the related art, if the end point of voice recognition isspecified under the condition of the user voice not being received inthe electronic device 100 for a pre-set period, the point in time atwhich the pre-set period has passed may be specified as the end point ofthe voice recognition, even when the user voice is not received in theelectronic device 100 for a pre-set period due to the user hesitatingutterance while uttering, and a problem which is in opposition to anintent of the user intent may arise. In addition thereto, according tothe related art, when the user additionally utters the user voice of notdesiring voice recognition after the user voice desiring voicerecognition has been uttered and before the pre-set period has passed,voice recognition may be performed for not only the voice desiring voicerecognition by the user but also for the voice not desiring voicerecognition and a problem which is in opposition to the user intent mayarise.

On the other hand, as in the embodiment of the disclosure as describedabove, if the end point of the voice recognition is specified based onthe touch interaction of the user, the point in time which correspondsto the user intent may be specified as the end point of the voicerecognition, and an accuracy of the End Point Detection (EPD) of thevoice recognition may be improved accordingly.

As described in the above, according to an embodiment, the electronicdevice 100 may perform voice recognition on the user voice receivedwhile maintaining the touch interaction of the user on the display fromamong the received user voice, and obtain text information correspondingto the user voice accordingly.

Meanwhile, in the above, based on the microphone being in an activatedstate, the embodiment specifying the subject of voice recognition basedon the touch interaction of the user from among the user voice in itsentirety received through the microphone has been described, butaccording to another embodiment of the disclosure, based on themicrophone not being in an activated state, the subject of voicerecognition may be specified by controlling the time in which themicrophone is activated based on the touch interaction of the user andperforming voice recognition on the user voice in its entirety receivedthrough the activated microphone.

In the above, because the method of specifying the user voice which isthe subject of voice recognition from among the received user voice hasbeen described, the user voice which is the subject of voice recognitionfrom among the received user voice may be referred simply as the ‘uservoice’ below for convenience.

The electronic device 100 may identify an object corresponding to thereceived user voice from among the at least one object included in theimage (S250). Here, the object corresponding to the user voice may beidentified based on at least one from among text informationcorresponding to the user voice and the received touch interaction ofthe user.

Specifically, based on information on at least one object included inthe image being included in the obtained text information, theelectronic device 100 may identify the object corresponding to theinformation on the at least one object included in the obtained textinformation as the object corresponding to the user voice. That is, asdescribed in the example above, when information on an object such as“beer” is included in the text information corresponding to the uservoice, the electronic device 100 may identify “beer” as the objectcorresponding to the user voice.

Meanwhile, based on the touch interaction of the user being received onthe display, the electronic device 100 may identify the objectcorresponding to the area to which the touch interaction of the user isreceived from among the areas on the display as the object correspondingto the user voice. The touch interaction of the user may be receivedwhile the user voice is being received, but as described above, thedisclosure is not limited thereto.

Specifically, the electronic device 100 may display an image on thedisplay, and receive the touch interaction of the user on the display.Then, the electronic device 100 may identify the object which isdisplayed on the area to which the touch interaction of the user isreceived from among the areas on the display as the object correspondingto the user voice. As in the example described above, the electronicdevice 100 may display an image including objects such as “beer,”“cola,” and “juice” on the display. Then, the electronic device 100 mayreceive the touch interaction of the user on the area in which “beer” isdisplayed from among the areas on the display. In this case, theelectronic device 100 may identify “beer” as an object corresponding tothe user voice.

When the object corresponding to the user voice is identified, theelectronic device 100 may display the memo UI including text informationon an area corresponding to the object identified as corresponding tothe user voice from among the areas on the display (S260). That is, asin the above-described example, the electronic device 100 may displaythe memo UI including text information such as “bought beer, drink afterwork” on an area the object such as “beer” is displayed from among theareas on the display.

Meanwhile, the area which corresponds to the object identified ascorresponding to the user voice may include an area in which the objectidentified as corresponding to the user voice is displayed on thedisplay and an area within a pre-set distance from the area in which theobject identified as corresponding to the user voice is displayed on thedisplay. That is, in the above-described example, the electronic device100 may include an area in which the object such as “beer” is displayedon the display and an area within a pre-set distance from the area inwhich the object such as “beer” is displayed on the display.

Meanwhile, based on there being two or more objects which are identifiedas corresponding to the user voice, the electronic device 100 maydisplay a selecting UI including information on two or more objects onthe display. Here, the selecting UI may refer to a user interface forreceiving user input of selecting one from among the two or moreobjects. Then, when the user input of selecting one object from amongthe two or more objects is received through the selecting UI, theelectronic device 100 may identify the selected one object as an objectcorresponding to the user voice. The embodiment related to providing theselecting UI will be described in greater detail with reference to FIGS.11A and 11B.

Meanwhile, in the above, information on at least one object included inthe text information corresponding to the user voice has been describedas being information on a name of the at least one object included inthe image, but according to an embodiment of the disclosure, theinformation on at least one object may include various information suchas information on a duration of at least one object included in theimage. In addition, the text information corresponding to the user voicemay include not only information on the at least one object included inthe image, but also a pronoun, and a user name. The embodiment relatedto the various information included in the text informationcorresponding to the user voice will be described in detail withreference to FIGS. 12, 13A and 13B.

According to one or more embodiments of the disclosure as describedabove, the electronic device 100 may display the memo UI on an areadesired by the user based on text information corresponding to the uservoice without a separate user manipulation of designating an area towhich the memo UI including the text information is to be displayed onthe display.

In addition, the electronic device 100 may specify the user voice whichis the subject of voice recognition while concurrently determining anarea to which the memo UI is to be displayed in a convenient andintuitive method based on the touch interaction of the user and displaythe memo UI.

Accordingly, the user of the electronic device 100 may generate textinformation corresponding to the user voice through the user interfaceusing an intuitive and simple method, and display the text informationgenerated in an area on the display which corresponds to user intent.

FIG. 3A is a block diagram illustrating in brief a configuration of anelectronic device 100 according to the disclosure, and FIG. 3B is adiagram illustrating an embodiment according to the disclosure based ona coupling relationship between a hardware configuration of theelectronic device 100 as illustrated in FIG. 3A and a software moduleaccording to the disclosure.

As illustrated in FIGS. 3A and 3B, the electronic device 100 accordingto the disclosure may include a display 110, a microphone 120, a memory130, and a processor 140.

The display 110 may output image data by the control of the processor140. Specifically, the display 110 may output an image pre-stored in thememory 130 by the control of the processor 140. The display 110 storedin the memory 130 may be implemented as a liquid crystal display (LCD)panel, an organic light emitting diodes (OLED), and the like, and it maybe possible for the display 110 to also be implemented as a flexibledisplay, a transparent display, or the like in some cases. However, thedisplay 110 according to the disclosure is not limited to a specifictype.

The display 110 according to the disclosure may display an image whichincludes at least one object by the control of the processor 140, andmay also display a user interface such as the memo UI, the selecting UI,the deleting UI, and the like.

The microphone 120 may receive sound or voice generated outside of theelectronic device 100. Specifically, the microphone 120 may receive anaudio signal according to the sound or voice generated outside of theelectronic device 100, and convert the received audio signal to anelectrical signal. Specifically, the microphone 120 according to thedisclosure may receive the user voice generated by an utterance of theuser.

The memory 130 may store at least one instruction related to theelectronic device 100. Then, the memory 120 may be stored in anoperating system (O/S) for driving the electronic device 100. Inaddition, the memory 130 may be stored with various software programs orapplications for operating the electronic device 100 according to thevarious embodiments of the disclosure.

Specifically, the memory 130 may be stored with various software modulesfor operating the electronic device 100, and the processor 140 may beconfigured to control the operation of the electronic device 100 byexecuting the various software modules stored in the memory 130. Thatis, the memory 130 may be accessed by the processor 140, andreading/writing/modifying/deleting/updating or the like of data may beperformed by the processor 140.

Meanwhile, the term memory 130 in the disclosure may be used as ameaning including a memory 130, a ROM (not shown) within a processor140, a Ram (not shown) or a memory card (not shown) mounted to theelectronic device 100 (e.g., micro SD card, memory stick), and may beused as a meaning including a non-volatile memory such as a flashmemory, a programmable read-only memory (PROM), and the like, and avolatile memory such as a dynamic random-access memory (DRAM) and astatic RAM (SRAM).

Specifically, as illustrated in FIG. 3B, the memory 130 according to thedisclosure may be stored with a plurality of modules such as a wake-upmodule 131, an ASR module 132, a NLU module 133, an object recognitionmodule 134, and a memo UI processing module 135. Here, the plurality ofmodules being stored in the memory 130 may refer to executing theplurality of modules, and all data necessary for performing the functionof the plurality of modules being stored in the memory 130. Meanwhile,the memory 130 may be stored with data 136 associated with the memo UI.

Meanwhile, because the processor 140 may access the plurality of modulesstored in the memory 130 and perform various operations according to thedisclosure through the plurality of modules, the function of each of theplurality of modules will be described below.

The wake-up module 131 may refer to a module which determines whether ornot to perform voice recognition on the user voice, and may bedesignated as the wake-on-voice (WoV) module. Specifically, based on thetrigger input being received, the wake-up module 131 may determine voicerecognition on the user voice which is received through the microphone120 after the trigger input is received as having been performed.

The automatic speech recognition (ASR) module may refer to a modulewhich obtains text information corresponding to the received user voiceby performing voice recognition on the user voice. The ASR module 132may include an acoustic model (AM), a pronunciation model (PM), alanguage model (LM), and the like, and obtain a text corresponding tothe user voice through an artificial intelligence model such as an AM, aPM, and a LM.

The natural language understanding (NLU) module 133, as a module whichperforms understanding of natural language on the received user voicemay include a domain classifier, and NLU engine or the like. The domainclassifier may refer to a module identifying a domain associated withthe user voice, and the NLU engine may refer to a module which performsunderstanding of natural language with respect to text informationcorresponding to the user voice by using a database for performingunderstanding of the natural language. That is, the NLU module 133 mayperform a syntactic analysis and a semantic analysis on the textinformation corresponding to the user voice through the domainclassifier, the NLU engine, or the like, and obtain information on theuser intent.

The object recognition module 134 may extract the boundary within theimage and identify whether or not an object is present and the locationof the object. Then, the object recognition module 134 may identify atleast one object included in the image through a 2D image matching, anoptical character recognition, and an artificial intelligence model orthe like for object recognition.

The memo UI processing module 135 may refer to a module performing theoverall processing process related to the memo UI according to thedisclosure. Specifically, the memo UI processing module 135 may generateand obtain a memo UI, store the memo UI in the memory 130, and performimage processing with respect to the memo UI, and handle the processingon the memo UI according to the disclosure in addition to the operationof controlling the display 120 to display the memo UI, or the like.Specifically, the memo UI processing module 135 may perform the overallprocessing process related to the memo UI according to the disclosurebased on the memo UI related data 136 stored in the memory 130.

The memo UI related data 136 may refer to various data related to thememo UI according to the disclosure. That is, in describing thedisclosure, the memo UI may be used as a collective meaning of datarelated to the memo UI according to the disclosure including textinformation included in the memo UI, information on the size, font,color, and the like of text information displayed in the memo UI,information on the object displayed in the memo UI, information on an UIitem displayed in the memo UI, or the like.

Meanwhile, in the above, the processor 140 has been described as loadingthe plurality of modules stored in the memory 130, and the process ofperforming the operations according to the disclosure through theplurality of modules, but the above is merely to describe in detail theorganic coupling of hardware and software for implementing theoperations according to the disclosure, and the disclosure is notlimited to the case of including a software architecture as illustratedin FIG. 2 . That is, with the scope of achieving the object of thedisclosure, the type and name of the plurality of modules may beimplemented different from that illustrated in FIG. 3B. Then, inimplementing the various embodiments of the disclosure, it should beunderstood that at least a portion of the plurality of modules asdescribed through FIG. 3B may not be used.

Meanwhile, in FIG. 3B, the plurality of modules may be stored in thememory 130, the processor 140 may load the plurality of modules storedin the memory 130 and access the plurality of modules, and the pluralityof modules are illustrated within the memory 130 based on the performingvarious operations according to the disclosure through the plurality ofmodules, but at least a portion from among the plurality of modules maybe implemented as a dedicated chip capable of performing the function ofthe module and included in the processor 140.

The processor 140 may control the overall operation of the electronicdevice 100. Specifically, the processor 140 may be connected withconfigurations of the electronic device 100 including the microphone120, the display 110, and the memory 130 as described above, and executethe at least one instruction stored in the memory 130 as described aboveto control the overall operation of the electronic device 100.

The processor 140 may be implemented to various methods. For example,the processor 140 may be implemented to at least one from among anapplication specific integrated circuit, (ASIC), an embedded processor,a microprocessor, a hardware control logic, a hardware finite statemachine (FSM), or a digital signal processor (DSP). Meanwhile, the termprocessor 140 in the disclosure may be used as a meaning including aCentral Processing Unit (CPU), a Graphic Processing Unit (GPU), a MainProcessing Unit (MPU), and the like.

In particular, the processor 140 according to the disclosure may accessthe plurality of modules as described above, that is, the plurality ofmodules stored in the memory 130 and perform various operationsaccording to the disclosure through the plurality of modules. Thecontrol process of the processor 140 according to the disclosure will bedescribed in detail below with reference to FIG. 3B.

The processor 140 may obtain an image including at least one object.When an image is obtained, the processor 140 may input the obtainedimage in the object recognition module 134 and identify the at least oneobject included in the image. Then, the processor 140 may, byidentifying the obtained image and the at least one object included inthe image, store the information on the obtained at least one object inthe memory 130, and identify the object corresponding to the user voiceas described below based on the stored image and the information on theobject. Here, the information on the at least one object may, forexample, include information on the name of the object, a coordinatevalue corresponding to the location of the object within the image, andthe like. The analyzing the image through the object recognition module134 or the process of object recognition will be described in detailwith reference to FIG. 4 .

The processor 140 may receive the trigger input for performing the voicerecognition. Here, the trigger input may not only be received throughthe microphone 120 in a form of the user voice including a pre-settrigger word, but also be received through an input button arranged onthe electronic device 100 or received through a control signal receivedfrom a remote control device for controlling the electronic device 100.

When the trigger input is received, the processor 140 may determinewhether or not voice recognition through the wake-up module 131 is to beperformed. Specifically, when the trigger input is received, theprocessor 140 may determine whether or not to perform voice recognitionby inputting the trigger input to the wake-up module 131. Then, when itis determined as performing voice recognition, the processor 140 maydetermine as performing voice recognition with respect to the user voicewhich is received through the microphone 120 after the trigger input isreceived. In other words, the point in time at which the trigger inputis received may be the starting point for specifying the user voicewhich is the subject of voice recognition. The starting point and theend point for specifying the user voice which is the subject of voicerecognition has been described with reference to FIG. 2 , and redundantdescriptions thereof will be omitted.

The processor 140 may receive the user voice through the microphone 120.When the user voice is received, the processor 140 may input thereceived user voice in the ASR module 132, and obtain text informationcorresponding to the user voice. The process of voice recognitionthrough the ASR module 132 will be described in detail with reference toFIG. 5 .

The processor 140 may receive the touch interaction of the user throughthe display 110. Specifically, the display 110 according to thedisclosure may include a touch sensor for detecting the touchinteraction of the user, and the processor 140 may receive the touchinteraction of the user with respect to one area from among the areas onthe display 110 through the touch sensor included in the display 110.

The touch sensor may be implemented as a sensor of various types such asa capacitive type, a resistive type, a piezoelectric type, and the like.In addition, the display 110 may detect a touch interaction which usesinput means such as a stylus pen in addition to a finger of the user.Then, based on the input means of the touch interaction being a styluspen including a coil within, the display 110 may include a magneticfield sensor capable of detecting the magnetic field changed by the coilwithin the stylus pen. Accordingly, the processor 140 may detect notonly the touch interaction through the display 110, but also closeproximity gestures, that is, hovering. Meanwhile, in the above, thedisplay function of the display 110 and the detection function of theuser touch interaction has been described as being performed on the sameconfiguration, but may be performed in configurations different from oneanother.

The processor 140 may be configured to identify the object correspondingto the received user voice from among the at least one object includedin the image. Here, the object corresponding to the user voice may beidentified based on at least one from among the text informationcorresponding to the user voice obtained through the ASR module 132 andthe touch interaction of the user received through the display 110.

Specifically, based on information on at least one object included inthe image being included in the obtained text information, the processor140 may identify the object corresponding to information on at least oneobject included in the obtained text information as an objectcorresponding to the user voice.

Meanwhile, when the touch interaction of the user is received on thedisplay 110, the processor 140 may identify the object corresponding tothe area to which the touch interaction of the user is received fromamong the areas on the display 110 as the object corresponding to theuser voice. Specifically, the touch interaction of the user may bereceived while the user voice is being received, but it should be notedthat the disclosure is not limited thereto as described above.

Specifically, the processor 140 may display an image on the display 110,and receive the touch interaction of the user on the display 110. Then,the processor 140 may identify the object displayed on the area to whichthe touch interaction of the user is received from among the areas onthe display 110 as the object corresponding to the user voice.

The processor 140 may be configured to control the display 110 todisplay the memo UI including the text information. Specifically, whenthe object corresponding to the user voice is identified, the processor140 may be configured to control the display 110 to display the memo UIincluding the text information on the area corresponding to the objectidentified as corresponding to the user voice from among the areas onthe display 110. Here, the area corresponding to the object identifiedas corresponding to the user voice may include the area in which theobject identified as corresponding to the user voice is displayed on thedisplay 110 and the area within a pre-set distance from the area inwhich the object identified as corresponding to the user voice isdisplayed on the display 110.

Meanwhile, based on there being two or more objects identified ascorresponding to the user voice, the processor 140 may display theselecting UI including information on the two or more objects on thedisplay 110. Here, the selecting UI may refer to the user interface forreceiving the user input of selecting one from among the two or moreobjects. Then, when the user input of selecting one object from amongthe two or more objects is received through the selecting UI, theprocessor 140 may identify the selected one object as the objectcorresponding to the user voice. The embodiment related to providing theselecting UI will be described in greater detail with reference to FIGS.11A and 11B.

Meanwhile, in the above, the information on the at least one objectincluded in the text information corresponding to the user voice hasbeen described as being information on a name of the at least one objectincluded in the image, but according to an embodiment of the disclosure,the information on the at least one object may include variousinformation such as information on a duration of at least one objectincluded in the image. In addition, the text information correspondingto the user voice may include note only information on at least oneobject included in the image, but also at least one from among apronoun, a user name, and information on a user intent. The embodimentrelated to the various information included in the text informationwhich corresponds to the user voice will be described in detail withreference to FIGS. 12, 13A, and 13C.

FIG. 4 is a diagram illustrating in greater detail an object recognitionprocess according to the disclosure.

As described above, the electronic device 100 may obtain an imageincluding at least one object. Then, when the image is obtained, theelectronic device 100 may analyze the obtained image and identify the atleast one object included in the image. Specifically, the electronicdevice 100 may identify the at least one object included in the imagethrough the object recognition module. The various method of performingimage analysis or object recognition through the object recognitionmodule by the electronic device 100 will be described in detail.

The electronic device 100 may extract a boundary within the obtainedimage and identify whether or not an object is present and the locationof the object. Then, the object recognition module may identify the atleast one object included in the image through 2D image matching,Optical Character Recognition (OCR), artificial intelligence model forobject recognition, and the like.

Specifically, the electronic device 100 may use various methods such asedge detection, corner detection, histogram feature detection, imagehigh frequency analysis, image various analysis, and the like to extractthe feature of the object included in the obtained image. Then, theelectronic device 100 may obtain a likelihood for the object included inthe obtained image to correspond to each of the plurality of categoriesfor classifying the object based on the extracted features, and identifyat least one object included in the image accordingly.

In an embodiment, when an object is classified through the 2D imagematching, the electronic device 100 may obtain an image of the area inwhich each of the objects in the obtained image are included, comparethe image with pre-stored images for each type of the plurality ofobjects, and identify the at least one object included in the imagebased on the similarity between the two images.

In another embodiment, based on the electronic device 100 being arefrigerator and the obtained image being an image of an inside of therefrigerator, the electronic device 100 may use the OCR technology torecognize a label of a food product or the like included in the imageand identify the at least one object included in the image.

In still another embodiment, the electronic device 100 may performobject recognition through a trained artificial intelligence model.Specifically, the electronic device 100 may input the obtained image inthe trained artificial intelligence model and identify the at least oneobject included in the image. Here, the artificial intelligence modelmay be an artificial intelligence model trained by using at least onefrom among machine learning, genetics, deep learning, and artificialintelligence algorithm such as classification algorithm, and may includeat least one artificial neural network from among a convolutional neuralnetwork (CNN) and a recurrent neural network (RNN). However, there is nospecific limitation to the type of artificial intelligence modelaccording to the disclosure and the type the artificial neural networkincluded therein.

For example, as illustrated in FIG. 4 , based on the electronic device100 being a refrigerator, the electronic device 100 may capture theinside of the refrigerator and obtain an inside image of therefrigerator. Then, the electronic device 100 may use the variousmethods as described above to perform an image analysis on the obtainedimage or object recognition. Then, based on the result of the objectrecognition, the electronic device 100 may identify objects such as a“cabbage” 410, a “grape” 420, a “juice” 430, and the like as at leastone object included in the image.

Meanwhile, a range of the object which is the subject of identificationbased on performing object recognition on the image may be pre-setdifferently according to the type of the electronic device, the usersetting, or the like. For example, based on the electronic device 100being a refrigerator, the range of the object which is the subject ofidentification based on performing object recognition on the insideimage of the refrigerator may be pre-set to a range including only thefood products arranged inside of the refrigerator and excluding insidestructures such as a shelf or a storage container inside therefrigerator. At this time, the artificial intelligence model used foridentifying the object may be implemented as an artificial intelligencemodel trained to identify an object limited to a food product type.

Meanwhile, the object recognition module as described above may not onlybe included as an on-device in the electronic device 100, but also in anexternal device such as a server, and the electronic device 100 may beconfigured to transmit the obtained image to the server, and when objectrecognition on the image is performed by the object recognition moduleincluded in the server, by receiving the object recognition results fromthe server, identify the at least one object included in the image.

FIG. 5 is a diagram illustrating in greater detail a voice recognitionprocess according to the disclosure.

As described above, the electronic device 100 may receive the uservoice. Then, when the user voice is received, the electronic device 100may perform voice recognition on the received user voice and obtain textinformation corresponding to the user voice.

Specifically, the electronic device 100 may perform voice recognitionbased on an automatic speech recognition (ASR) module and obtain textinformation corresponding to the received user voice. The ASR module mayinclude a feature extractor and a decoder. The feature extractor mayextract feature information (feature vector) from the audio signal. Thenthe decoder may obtain voice recognition information corresponding thefeature information extracted based on the acoustic model (AM), thepronunciation model (PM), the language model (LM), and the like. Thevoice recognition information may include pronunciation information,phoneme information, and character string information corresponding tothe feature information obtained based on the acoustic model, and textdata corresponding to the pronunciation information obtained based onthe language model.

Specifically, the AM may extract an acoustic feature of the receiveduser voice and obtain a phoneme sequence. The PM may include apronunciation dictionary (pronunciation lexicon), and obtain a wordsequence by mapping the obtained phoneme sequence to a word. Then, theLM may designate a likelihood to the obtained word sequence. Meanwhile,the ASR module may include an end-to-end voice recognition model inwhich the elements of AM, PM and LM are integrated as a single neuralnetwork.

For example, as illustrated in FIG. 5 , the electronic device 100 mayreceive the user voice 510 generated by the user utterance, and obtaintext information 520 such as “strawberries are washed so eat them” astext information corresponding to the user voice by using the ASR moduleas described above.

Meanwhile, the ASR module as described above may not only be included inthe electronic device 100 as an on-device, but also included in anelectronic device such as a server. Then, the electronic device 100 maytransmit the received user voice to the server, and when voicerecognition on the user voice is performed by the ASR module included inthe server, obtain the text information corresponding to the user voiceby receiving the result of voice recognition from the server.

FIG. 6 is a diagram illustrating an embodiment of an electronic device100 identifying an object corresponding to a user voice based on textinformation corresponding to the user voice.

As described above, the electronic device 100 may obtain an image, andidentify at least one object included in the obtained image. Then theelectronic device 100 may receive the user voice and obtain the textinformation corresponding to the received user voice.

In addition, the electronic device 100 may identify an objectcorresponding to the user voice from among the at least one objectincluded in the image. Specifically, the object corresponding to theuser voice may be identified based on at least one from among the textinformation corresponding to the user voice and the received touchinteraction of the user. The process of identifying an objectcorresponding to the user voice based on the text informationcorresponding to the user voice will be described below with referenceto FIG. 6 .

When information on at least one object is included in the textinformation corresponding to the user voice, the electronic device 100may identify the object corresponding to the user voice from among theat least one object included in the image based on the information onthe at least one object included in the text information. Specifically,when information on the at least one object is included in the textinformation corresponding to the user voice, the electronic device 100may identify the object corresponding to information on the at least oneobject from among the at least one object included in the image as theobject corresponding to the user voice.

For example, as illustrated in FIG. 6 , the electronic device 100 mayobtain an image, and identify the at least one object included in theimage by analyzing the obtained image. Specifically, based on theelectronic device 100 being a refrigerator, the electronic device 100may obtain an inside image of the electronic device 100 as illustratedin FIG. 6 , and identify a “cucumber sandwich” 62 as the at least oneobject included in the obtained image.

Then, the electronic device 100 may receive the user voice, performvoice recognition on the received user voice and obtain text information61 such as “eat the cucumber sandwich and also give Tommy a snack” asthe text information corresponding to the user voice. When informationon the “cucumber sandwich” 62 which is the at least one object includedin the image is included in the text information corresponding to theuser voice, the electronic device 100 may identify the “cucumbersandwich” 62 as the object corresponding to the user voice.

Meanwhile, in the example as described above, the “cucumber sandwich” 62being identified as the at least one object included in the image basedon object recognition on the obtained image has been described, but“sandwich” and not “cucumber sandwich” may be identified as the at leastone object included in the image based on object recognition. However,even in this case, the electronic device 100 may identify the “sandwich”from among the at least one object included in the image as the objectcorresponding to the user voice. In other words, the disclosure is notlimited to the case of the name of the identified object and the name ofthe at least one object identified as being included in the image beingthe same based on the information on the at least one object included inthe text information, and may be applicable to when any one from amongthe names of both objects are included to the other one.

As described above, when the object corresponding to the user voice isidentified based on the text information corresponding to the uservoice, the electronic device 100 may display the memo UI 63 includingtext information on an area corresponding to the object identified ascorresponding to the user voice from among the areas on the display. Thevarious embodiments related to the memo UI will be described below withreference to FIGS. 8A to 9B.

FIGS. 7A to 7C are diagrams illustrating an embodiment of an electronicdevice 100 identifying an object corresponding to a user voice based ona touch interaction of the user.

As described above, the electronic device 100 may obtain an image, andidentify at least one object included in the obtained image. Then, theelectronic device 100 may receive the user voice, and obtain textinformation corresponding to the received user voice.

In addition, the electronic device 100 may identify the objectcorresponding to the user voice from among the at least one objectincluded in the image. Specifically, the object corresponding to theuser voice may identify based on the text information corresponding tothe user voice and the at least one from among the received touchinteraction of the user. The process of identifying the objectcorresponding to the user voice based on the touch interaction of theuser will be described below with reference to FIGS. 7A to 7C.

Specifically, the touch interaction of the user may be a single touchinteraction of touching one point 71-1 on the display 110 as illustratedin FIG. 7A. Then, when the single touch interaction is received, theelectronic device 100 may identify the area 72-1 to which the touchinteraction is received from among the areas on the display 110 based onthe location of the touched point 71-1 according to the signal touchinteraction. Specifically, the electronic device 100 may identify anarea within a pre-set range from the point 71-1 which was touchedaccording to the single touch interaction from among the areas on thedisplay 110, and identify the identified area as the area 72-1 in whichthe touch interaction is received. Then, the electronic device 100 mayidentify the object 73-1 corresponding to the area 72-1 to which thetouch interaction is received from among the areas on the display 110 asthe object corresponding to the user voice.

In addition, the touch interaction of the user may be a multi-touchinteraction of concurrently touching two or more points 71-2 on thedisplay 110 as illustrated in FIG. 7B. Then, when the multi-touchinteraction is received, the electronic device 100 may identify the area72-2 to which the touch interaction is received from among the areas onthe display 110 based on the location 71-2 of two or more points touchedaccording to the multi-touch interaction. Specifically, the electronicdevice 100 may identify the area in which two or more points 71-2touched according to the multi-touch interaction are included from amongthe areas on the display 110, and identify the identified area as thearea 72-2 in which the touch interaction is received. Then, theelectronic device 100 may identify the object 73-2 corresponding to thearea 72-2 in which the touch interaction is received from among theareas on the display 110 as the object corresponding to the user voice.

The touch interaction of the user may be a drag interaction realizedalong a closed curve in which a plurality of points 71-3 are connectedon the display 110 as illustrated in FIG. 7C. Then, when the draginteraction is received, the electronic device 100 may identify the area72-3 to which the touch interaction is received from among the areas onthe display 110 based on the closed curve according the draginteraction. Specifically, the electronic device 100 may identify anarea in which the closed curve according to the drag interaction isincluded from among the areas on the display 110, and identify theidentified area as the area 72-3 in which the touch interaction isreceived. Then, the electronic device 100 may identify the objectcorresponding to the area 72-3 in which the touch interaction isreceived from among the areas on the display 110 as the object 73-3corresponding to the user voice

Meanwhile, in the above, the object corresponding to the area in whichthe touch interaction is received may be an object displayed on an areain which the touch interaction is received from among the areas on thedisplay 110. Specifically, the electronic device 100 may display theimage on the display 110, and identify the object displayed on the areain which the touch interaction is received from among the areas on thedisplay 110 as the object corresponding to the user voice.

As described above, when the object corresponding to the user voice isidentified based on the user interaction, the electronic device 100 maydisplay memo UIs 75-1, 75-2 and 75-3 including text information 74-1,74-2 and 74-3 on the area corresponding to the object identified ascorresponding to the user voice from among the areas on the display 110.The various embodiments related to the memo UI will be described belowwith reference to FIGS. 8A to 9B.

According to the various embodiments of the disclosure as describedabove, the electronic device 100 may specify the user voice which is thesubject of voice recognition based on the touch interaction of the userwhile currently determining the area to which the memo UI is to bedisplayed in a convenient and intuitive manner and display the memo UI.

FIGS. 8A and 8B are diagrams illustrating an embodiment related todisplaying a size and form of a memo UI differently based on a touchinteraction of a user.

In the above, the embodiment of identifying the object corresponding tothe user voice from among the at least one object included in the imagebased on touch interactions of various types, and displaying the memo UIincluding text information on the area corresponding to the objectidentified as corresponding tot eh user voice from among the areas onthe display 110 has been described with reference to FIGS. 7A to 7C.

That is, in the above, the embodiment of determining an area to whichthe memo UI is to be displayed based on the touch interaction of theuser has been described, but according to the disclosure, the size andform of the memo UI may also be determined according to the varioustypes of touch interaction of the user.

Specifically, as illustrated in FIG. 8A, the touch interaction of theuser may be a multi-touch interaction of concurrently touching two ormore points 81-1 on the display 110. Then, when the multi-touchinteraction is received, the electronic device 100 may identify the area82-1 to which the touch interaction is received from among the areas onthe display 110 based on the location of two or more touched points 81-1according to the multi-touch interaction. Specifically, the electronicdevice 100 may identify the size and form of the area 82-1 whichincludes the touched two or more coordinate values according to themulti-touch interaction from among the areas on the display 110. Then,the electronic device 100 may display the memo UI 73-1 on the display110 in the size and form corresponding to the size and form of theidentified area 82-1 according to the multi-touch interaction.

Meanwhile, as illustrated in FIG. 8B, the touch interaction of the usermay be a drag interaction realized along a closed curve 81-2 of which aplurality of points are connected on the display 110. Then, when thedrag interaction is received, the electronic device 100 may identify thearea 82-2 in which the touch interaction is received from among theareas on the display 110 based on the closed curve according to the draginteraction. Specifically, the electronic device 100 may identify thesize and form of the area 82-2 in which the touched plurality ofcoordinate values are included according to the drag interaction fromamong the areas on the display 110. Then, the electronic device 100 maydisplay the memo UI 83-2 on the display 110 in a size and formcorresponding to the size and form of the identified area 82-2 accordingto the drag interaction.

Meanwhile, the touch interaction of the user being received on an areain which the object is not displayed has been illustrated in FIGS. 8Aand 8B, but as illustrated in FIGS. 7A to 7C, even when the touchinteraction of the user is received on the area in which the object isdisplayed, the size and form of the memo UI may be determined based onthe touch interaction of the user.

As described above, according to the various embodiments of thedisclosure, the electronic device 100 may determine not only the area inwhich the memo UI is displayed based on a one time touch interaction ofthe user, but also the size and form of the memo UI and may display thememo UI.

FIGS. 9A and 9B are diagrams illustrating various forms related to amemo UI according to the disclosure.

As illustrated in FIG. 9A, the memo UI according to the disclosure mayinclude text information such as “wedding anniversary gift!” 91(hereinafter, referred to as first text information 91), “make sure toeat breakfast” 92 (hereinafter, referred to as second text information92), and “add 500 ml of water in a pot, and when the water boils, add inthe noodles and the seasoning and after boiling for 2 more minutes . . .” 93 (hereinafter, referred to as third text information 93). Then, thefirst text information 91, the second text information 92, and the thirdtext information 93 may be displayed in sizes, fonts, colors, or thelike of various types.

Specifically, the size of the text information displayed through thememo UI according to the disclosure may be determined based on the sizein which the memo UI is displayed. For example, as illustrated in FIG.9A, based on the size of the memo UI in which the first text information91 is displayed being determined to be bigger than the memo UI in whichthe second text information 92 is displayed, the first text information91 may be displayed greater than the second text information 92.

Meanwhile, the size in which text information according to thedisclosure is displayed through the memo UI may be determined based onthe amount of text information. For example, when the second textinformation 92 and the third text information 93 of the same size isdisplayed in the memo UI, the size of the second text information 92which includes a relatively smaller number of words may be determined tobe bigger than the size of the third text information 93.

Meanwhile, the size in which the text information according to thedisclosure is displayed through the memo UI may be determined based onthe size of the received user voice. For example, the greater the sizeof the user voice corresponding to the text information, the bigger thetext information may be displayed through the memo UI. Here, theinformation on the size of the user voice may be obtained based on theacoustic feature of the user voice obtained through the ASR module asdescribed above.

Meanwhile, the size, the font, and the color of the text informationdisplayed through the memo UI according to the disclosure may bedetermined differently according to the user who uttered the user voicecorresponding to the text information. Here, the user who uttered theuser voice may be identified based on a voice print analysis of the uservoice or the object recognition on the user image obtained through acamera.

Specifically, when the user voice is received, the electronic device 100may identify the user who uttered the received user voice based oninformation on the voice print of the received user voice. Here, thevoice print may be identification information which may be obtained byanalyzing the frequency of the user voice, and may be used in voicerecognition in that the frequency form of the voice for each user isunique. Specifically, the electronic device 100 may obtain informationon the voice print of the received user voice, and identify the user whouttered the user voice by comparing information on the voice print ofthe user with information on a pre-stored voice print.

Meanwhile, the electronic device 100 may obtain the user image throughthe camera while the users voice is being received, and identify theuser who uttered the user voice by performing object recognition on theobtained user image. Specifically, the electronic device 100 mayidentify the user who uttered the user voice by comparing the image ofthe user obtained through the camera with the image of the user whichwas pre-registered.

As described above, when the user who uttered the user voice isidentified, the electronic device 100 may determine the size, the font,the color or the like of the text information which is displayed throughthe memo UI differently according to the identified user. Specifically,the electronic device 100 may store setting information on the size, thefont, the color, or the like of the text information preferred by theuser and determine the size, the font, the color, or the like of thetext information displayed through the memo UI based on the settinginformation corresponding to the identified user. When the size, thefont, the color, or the like of the text information displayed throughthe memo UI is determined, the text information may be displayed throughthe memo UI in the determined size, font, color, or the like.

For example, based on the identified user being ‘grandmother’ from amongthe user family that uses the electronic device 100, the electronicdevice 100 may display the text information in a large, a font that hasgood readability, and in the color black through the memo UI based onthe setting information corresponding to ‘grandmother’ who is theidentified user. In addition, based on the identified user being‘daughter’ from among the user family that uses the electronic device100, the electronic device 100 may display the text information in alarge, a font with good aesthetic sensibility, and in the color sky-bluethrough the memo UI based on the setting information corresponding to‘daughter’ who is the identified user.

Meanwhile, when the memo UI is displayed while the image on the display110 is in a displayed state, the memo UI may cover one area of thedisplayed image and may be displayed on the one area, or may bedisplayed in a transparent form on the one area of the displayed image.For example, as illustrated in FIG. 9B, the memo UI 94 and 95 may bedisplayed in a transparent form on one area of the displayed image,while an object corresponding to the area in which the memo UI 94 and 95are displayed may also be displayed. Meanwhile, based on the memo UIs 94and 95 being displayed in the transparent form, the degree oftransparency may be changed by the user setting.

Meanwhile, the image displayed on the display 110 may not only be animage which is displayed on the display 110 by processing the imageobtained through the camera, but may also be an image which is displayedon a transparent display 110 in which an object arranged at the rearsurface of the display 110 passes through the transparent display 110.Even when the image is displayed passing through the transparent display110, the memo UI according to the disclosure may be displayed in varioustypes as described above on the image.

Meanwhile, in the above, the text information being displayed throughthe memo UI has been described, but the memo UI may further includevarious information related to the object identified as corresponding tothe user voice. For example, the electronic device 100 may display animage in which the area corresponding to the object identified ascorresponding to the user voice is captured in the image through thememo UI, and further, information which is pre-stored or related to theobject corresponding to the user voice may be received from the externaldevice and displayed.

According to the various embodiments of the disclosure as describedabove, the electronic device 100 may display text information in thesize, the font, and the color of various types according to the uservoice and who the user that uttered the user voice is, and may provide auser customized memo UI in an intuitive manner.

FIG. 10A is a diagram illustrating comprehensively an embodiment of aprocess identifying an object corresponding to a user voice according tothe disclosure and a case in which there are two or more objectscorresponding to a user voice.

In the above, the process of identifying an object corresponding to theuser voice has been described briefly with reference to FIG. 2 (S250).Further, the process of identifying an object corresponding to the uservoice based on text information corresponding to the user voice has beedescribed in detail with reference to FIG. 6 . Further, the process ofidentifying an object corresponding to the user voice based on the touchinteraction of the user ha been described in detail with reference toFIGS. 7A to 7C. The embodiment of identifying an object corresponding tothe user voice taking into consideration whether information on the atleast one object included in the image is included in the textinformation corresponding to the user voice (S1020) and whether thetouch interaction has been received on the display while the user voiceis being received (S1030) will be described below with reference to FIG.10A.

As illustrated in FIG. 10A, the electronic device 100 may identify atleast one object included in the image (S1010). Specifically, theelectronic device 100 may obtain an image, and identify the at least oneobject included in the image by analyzing the obtained image.

The electronic device 100 may obtain text information corresponding tothe received user voice (S1015). Specifically, the electronic device 100may receive the user voice, and obtain text information corresponding tothe user voice by performing voice recognition on the received uservoice.

Meanwhile, the electronic device may, as illustrated in FIG. 10A,identify the object corresponding to the user voice based on whetherinformation on the at least one object included in the image is includedin the text information corresponding to the user voice and whether thetouch interaction is received on the display while the user voice isbeing received.

First, the electronic device 100 may identify whether information on theat least one object included in the image is included in the textinformation corresponding to the user voice (S1020). If information onthe at least one object is included in the text informationcorresponding to the user voice (S1020—Y), the electronic device 100 mayidentify the number of objects corresponding to the text information(S1025). Specifically, the electronic device 100 may identify the numberof objects corresponding to the text information based on information onthe at least one object included in the text information. For example,“beer,” “chicken,” and “strawberry” may be identified as objectsincluded in the image, and if information on objects such as “beer” and“chicken” is included in the text information corresponding to the uservoice the electronic device 100 may identify the number of objectscorresponding to the text information from among the objects included inthe image as two.

Meanwhile, if information on the at least one object is not included inthe text information corresponding to the user voice (S1020—N), theelectronic device 100 may identify whether the touch interaction of theuser has been received on the display while the user voice is beingreceived (S1030).

Then, if the touch interaction of the user is not received on thedisplay while the user voice is being received (S1030—N), the electronicdevice 100 may display the memo UI on a pre-set area from among theareas on the display (S1035). Specifically, the electronic device 100may display the memo UI on the pre-set area from among the areas on thedisplay to display the memo UI when information on the at least oneobject included in the image is not included in the text information andthe touch interaction of the user is not received on the display whilethe user voice is being received. Here, the pre-set area may be, forexample, a center area on the display.

If the touch interaction of the user is received on the display whilethe user voice is being received (S1030—Y), the number of objectscorresponding to the area in which the touch interaction of the user isreceived may be identified (S1040). For example, if objects such as“beer” and “chicken” are displayed on the display in an area within thepre-set distance from the point at which the touch interaction of theuser is received, the electronic device 100 may identify the number ofobjects corresponding to the area in which the touch interaction of theuser is received as two.

As described above, when the number of objects corresponding to textinformation or the number of objects corresponding to the area in whichthe touch interaction of the user is received is identified, theelectronic device 100 may identify the object identified ascorresponding to the area in which text information or the touchinteraction of the user is received being two or more (S1045).

If the object identified as corresponding to the area in which textinformation or the touch interaction of the user is received is not twoor more (S1045—N), the electronic device 100 may display the memo UI onthe area corresponding to the object identified as corresponding to thearea in which the text information or the touch interaction of the useris received from among the areas on the display (S1050).

If the object identified as corresponding to the area in which the textinformation or the touch interaction of the user is received is two ormore (S1045—Y), the electronic device 100 may display the selecting UIwhich includes information on two or more objects identified ascorresponding to the area in which the text information or the touchinteraction of the user is received on the display (S1055). Then, theelectronic device 100 may display the memo UI on the area correspondingto the object selected through the selecting UI from among the areas onthe display (S1060). Here, the embodiment related to providing theselecting UI will be described in detail with reference to FIGS. 11A and11B.

Meanwhile, in the above, the embodiment of identifying an objectcorresponding to the user voice and the number thereof by identifyingwhether information on the at least one object included in the image isincluded in the text information corresponding to the user voice(S1020), and then identifying whether the touch interaction of the useris received on the display while the user voice is being received(S1030) has been described with reference to FIG. 10A, according tostill another embodiment of the disclosure, the order of steps S1020 andS1030 may be interchangeable, and as described with reference to FIGS. 6and 7A to 7C, the text information corresponding to the user voice andthe touch interaction of the user received on the display may be anindependent standard for identifying the object corresponding to theuser voice.

Meanwhile, as described above, the range of the object which is thesubject of identification based on the object recognition on the imagemay be pre-set differently according to the type of the electronicdevice, the user settings, or the like. For example, based on theelectronic device 100 being a refrigerator, the range of the objectwhich is the subject of identification based on object recognition onthe inside image of the refrigerator may be pre-set to a range thatincludes only food products arranged inside the refrigerator, andexcluding inside structures such as a shelf or a storage containerinside the refrigerator.

Based on object recognition of the image, if an object included in therange of the pre-set object is not identified, the electronic device 100may determine the area which the memo UI is to be displayed based on thetouch interaction of the user. In addition, the electronic device 100may without performing the process of obtaining an image, the process ofidentifying the at least one object included in the obtained image, andthe like, determine the area which the memo UI is to be displayed basedon the touch interaction of the user. As described above, the embodimentof determining an area which the memo UI is to be displayed based on thetouch interaction of the user and without depending on the objectincluded in the image will be described below with reference to FIG.10B.

FIG. 10B is a diagram illustrating an embodiment of displaying a memo UIon an area to which a touch interaction of a user is received on adisplay.

As illustrated in FIG. 10B, the electronic device 100 may receive thetouch interaction of the user on the display (S1070). Specifically, theelectronic device 100 may receive the touch interaction of the user onone area from among the areas on the display. Here, the touchinteraction of the user may be touch interactions of various types asdescribed above with reference to FIGS. 7A to 7C.

The electronic device 100 may receive the user voice (S1075). Then, whenthe user voice is received, the electronic device 100 may obtain textinformation corresponding to the user voice (S1080). Here, the uservoice which is the subject of voice recognition may be specified basedon the touch interaction of the user.

Specifically, the point in time in which the touch interaction of theuser is received may be the starting point for specifying the user voicewhich is the subject of voice recognition. That is, when the touchinteraction of the user which is pre-set as corresponding to the triggerinput is received on the display, the electronic device 100 may performvoice recognition on the received user voice after the touch interactionof the user is received, and obtain text information corresponding tothe user voice.

Here, whether or not the touch interaction of the user is maintaineduntil the point in time the user voice is starting to be received is notan issue. However, if the touch interaction of the user is maintainedeven after the point in time at which the user voice is starting to bereceived, the point in time at which the touch interaction of the useris received becomes the starting point for specifying the user voicewhich is the subject of voice recognition, and the point in time atwhich the touch interaction of the user ends may be the end point forspecifying the user voice which is the subject of voice recognition asdescribed above with reference to FIG. 2 .

The electronic device 100 may display the memo UI including textinformation on the area in which the touch interaction of the user isreceived (S1085). That is, in the above, according to an embodiment ofthe disclosure as described above with reference to FIG. 10B, theelectronic device 100 may without performing at least some from amongthe process of obtaining an image including the at least one object, theprocess of identifying the at least one object included in the obtainedimage, the process of identifying the object corresponding to the uservoice based on text information corresponding to the user voice, and theprocess of displaying the obtained image on the display, and display thememo UI on the area in which the touch interaction of the user isreceived.

According to an embodiment as described above with reference to FIG.10B, the user of the electronic device 100 may, without considering therelationship with the image including the at least one object, displaythe memo UI on an area in which the user desires to display the memo UIbased on the touch interaction of the user. Specifically, the user voicewhich is the subject of voice recognition may be specified concurrentlyas the area in which the memo UI is displayed is determined based on aone time touch interaction of the user.

FIGS. 11A and 11B are diagrams illustrating in detail an embodimentrelated to providing a selecting UI when there are two or moreidentified objects which correspond to a user voice.

As described above, based on the electronic device 100 being arefrigerator as illustrated in FIGS. 11A and 11B, the electronic device100 may obtain an inside image of the refrigerator by capturing theinside of the refrigerator, and identify “juice,” “sandwich,” and thelike as the at least one object included in the obtained image.

Meanwhile, as described above, the electronic device 100 may identifythe object corresponding to the received user voice from among the atleast one object included in the image. Then, based on there being twoor more identified objects as corresponding to the user voice, theelectronic device 100 may display the selecting UI including informationon the two or more objects on the display. Here, the selecting UI mayrefer to the user interface for receiving the user input which selectsone from among the two or more objects.

Based on the user input selecting the one object from among the two ormore objects being received through the selecting UI, the electronicdevice 100 may identify the selected one object as the objectcorresponding to the user voice. Here, the various embodiments relatedto providing the selecting UI according to the disclosure will bedescribed in detail below with reference to FIGS. 11A and 11B.

FIG. 11A is a diagram illustrating an embodiment related to providingthe selecting UI when there are two or more objects identified ascorresponding to the user voice based on identifying the objectcorresponding to the received user voice from among the at least oneobject included in the image based on the text information correspondingto the user voice.

Referring to FIG. 11A, the electronic device 100 may receive the uservoice, and obtain text information such as “eat sandwich and juice andgo to work” 1110 as text information corresponding to the received uservoice. When the text information corresponding to the user voice isobtained, the electronic device 100 may identify objects such as “juice”and “sandwich” as objects corresponding to the user voice from among theat least one object included in the image. In this case, because thereare two or more identified objects, the electronic device 100 mayprovide the selecting UI 1120 including text information on the two ormore objects such as “juice” and “sandwich” on the display.

When a user input of selecting an object such as “sandwich” from amongthe “juice” and “sandwich” is received through the selecting UI 1120,the electronic device 100 may identify the object such as “sandwich” asthe object corresponding to the received user voice. Then, theelectronic device 100 may display the memo UI 1130 including textinformation such as “each sandwich and juice and go to work” on the areacorresponding to “sandwich” from among the areas on the display.

FIG. 11B is a diagram illustrating an embodiment related to providingthe selecting UI when there are two or more identified objects ascorresponding to the user voice based on identifying the objectcorresponding to the received user voice from among the at least oneobject included in the image based on the touch interaction of the user.

Referring to FIG. 11B, the electronic device 100 may receive the uservoice, and obtain text information such as “eat breakfast and go towork” 1150 as text information corresponding to the received user voice.Then, as illustrated in FIG. 11B, the electronic device 100 may receivethe touch interaction of the user on the display. When the touchinteraction of the user is received, the object corresponding to thearea in which the touch interaction of the user is received from amongthe areas on the display may be identified as the object correspondingto the user voice. Specifically, when objects such as “juice” and“sandwich” are displayed on the display in the area within the pre-setdistance from the point at which the touch interaction of the user isreceived, the electronic device 100 may identify “juice” and “sandwich”as objects corresponding to the user voice.

In this case, because there are two or more identified objects, theelectronic device 100 may, as described with reference to FIG. 11A,provide the selecting UI 1160 including information on two or moreobjects such as “juice” and “sandwich” on the display, and when the userinput of selecting the object such as “sandwich” is received through theselecting UI 1160, the electronic device 100 may display the memo UI1170 including text information such as “eat this and go to work” on thearea corresponding to “sandwich” from among the areas on the display.

According to the various embodiments of the disclosure as describedabove, the electronic device 100 may, when there are two or more objectsidentified as corresponding to the user voice, display the memo UI on anarea of the display that corresponds to the user intent by allowing theuser to select the object through the selecting UI.

Meanwhile, in the above, the embodiment of providing the selecting UIwhen two or more objects are identified based on text informationassuming that the touch interaction has not been received, and when twoor more objects are identified based on the touch interaction assumingthat information on the object is not included in the text informationhas been described in each of FIGS. 11A and 11B, respectively.

However, according to an embodiment of the disclosure, the objectcorresponding to the user voice may be identified based on the textinformation, and the object corresponding to the user voice may also beidentified based on the touch interaction. In this case, the electronicdevice 100 may determine the area at which the memo UI is to bedisplayed without providing the selecting UI.

For example, when two objects such as “juice” and “sandwich” areidentified based on the text information, if one object such as “juice”is identified based on the touch interaction, the electronic device 100may display the memo UI on the area corresponding to “juice” which isthe one object identified based on the touch interaction withoutproviding the selecting UI. In addition, when two objects such as“juice” and “sandwich” are identified based on the touch interaction, ifthe object such as “sandwich” is identified based on the textinformation, the electronic device 100 may display the memo UI on thearea corresponding to “sandwich” which is one object identified based onthe text information without providing the selecting UI.

FIG. 12 is a diagram illustrating an embodiment related to a pronounbeing included in text information corresponding to a user voice.

In the above, information on the at least one object included in theimage being included in the text information corresponding to the uservoice has been described, but a pronoun may be included in the obtainedtext information. For example, as illustrated in FIG. 12 , theelectronic device 100 may obtain text information such as “eat this”1230 as text information corresponding to the received user voice. Inthis case, the obtained text information may include the pronoun such as“this.”

Meanwhile, because the pronoun is a word which represents a name of aperson or an object in place thereof, based on the pronoun beingincluded in the text information, if the pronoun is changed to the nameof the person or the object in accordance with the uttering intent ofthe user and displayed through the memo UI, the uttering intent of theuser will be more effectively transferred to the other person.

Accordingly, according to an embodiment of the disclosure, if a pronounis included in the text information corresponding to the user voice, theelectronic device 100 may obtain text information in which the pronounis changed to the name of the object identified as corresponding to theuser voice. Here, the object corresponding to the user voice may beidentified based on the touch interaction of the user received on thedisplay 110 as described above. Then, when the changed text informationis obtained, the electronic device 100 may display the memo UI includingthe changed text information on the area corresponding to the objectidentified as corresponding to the user voice.

For example, as illustrated in FIG. 12 , the electronic device 100 mayidentify “sandwich” 1220 which is the object corresponding to the areain which the touch interaction 1210 is received from among the areas onthe display 110 as the object corresponding to the user voice. Then,when the pronoun such as “this” is included in the obtained textinformation, the electronic device 100 may, by changing “this” to“sandwich” which is the name of the object identified as correspondingto the user voice, obtain changed text information such as “eat thesandwich.” Then, based on the changed text information being obtained,the electronic device 100 may display the memo UI 1240 including textinformation such as “eat the sandwich” which is the changed textinformation on the area corresponding to the identified object.

According to the various embodiments of the disclosure as describedabove, the electronic device 100 may, based on a pronoun being includedin the text information corresponding to the user voice being included,generate text information through voice recognition and further improvethe convenience of the user intended for display by providing the memoUI which reflects the user intent according the touch interaction of theuser.

FIG. 13A is a diagram illustrating an embodiment related to informationon a user name being included in text information corresponding to auser voice.

In the above, the various embodiments according to the disclosurefocused on information on the at least one object included in the imagebeing included in the text information corresponding to the user voicehave been described, but information on the name of the user that ispre-stored may be included in the text information corresponding to theuser voice. For example, as illustrated in FIG. 13A, the electronicdevice 100 may obtain text information including a user name such as“Hanna” which is the user name that is pre-stored as text informationcorresponding to the received user voice.

When the name of the user that is pre-stored is included in the textinformation corresponding to the user voice, the electronic device 100may transmit the text information to a user terminal 400 correspondingto the user name. Specifically, the electronic device 100 may store theuser name and information on the user terminal 400 corresponding to theuser name. Then, when the name of the user that is pre-stored isincluded in the text information corresponding to the user voice, theelectronic device 100 may transmit text information corresponding to theuser voice to the user terminal 400 that corresponds to the user name.As illustrated in FIG. 13A, the text information corresponding to theuser voice may be directly transmitted to the user terminal 400, or maybe transmitted through an external server 300.

For example, as illustrated in FIG. 13A, the electronic device may notonly display the memo UI including text information corresponding to theuser voice on the display of the electronic device 100, but alsodirectly transmit or through the external server 300 the textinformation corresponding to the user voice to the user terminal 400which corresponds to the user name of “Hanna.”

Meanwhile, the electronic device 100 may not only transmit textinformation corresponding to the user voice to the user terminal 400corresponding to the user name included in the text information, butalso transmit the information on the user who uttered the user voice.Here, the user who uttered the user voice may be identified based on avoice print analysis of the user voice as described above in thedescription on FIGS. 9A and 9B or an object recognition on the userimage obtained through the camera. Then, information on the identifieduser may be pre-stored in the electronic device 100, and information onthe name of the user may be included. In the example as described above,if the user who uttered the user voice is identified as “Tommy,” theelectronic device 100 may transmit the information that the user whouttered the user voice is “Tommy” together with text informationcorresponding to the user voice to the user terminal 400 whichcorresponds to the user name “Hanna.”

Meanwhile, in the above, the embodiment of providing notification to theuser by the electronic device 100 transmitting text informationcorresponding to the user voice to the user terminal 400 has beendescribed, but the notification as described above may be provided tothe user through the electronic device 100. Specifically, if the usercorresponding to the user name included in the text information isidentified as located within the pre-set distance from the electronicdevice 100, the electronic device 100 may provide the notification tothe user through the electronic device 100.

Specifically, the electronic device 100 may identify that the usercorresponding to the user name included in the text information islocated within the pre-set distance from the electronic device 100 basedon the voice print analysis of the user voice or the object recognitionon the user image obtained through the camera as described in thedescriptions on FIGS. 9A and 9B above. Then, if it is identified thatthe user is located within the pre-set distance from the electronicdevice 100, the electronic device 100 may change the color, form, or thelike of the memo UI displayed on the display or light up the indicatorto guide the user to check the memo UI, and may output a voicerequesting to the user that the memo UI be checked through the speaker.

According to the various embodiments of the disclosure as describedabove, the electronic device 100 may, based on information on the username being included in the text information corresponding to the uservoice, further improve the user convenience by transmitting thenotification to the user terminal corresponding to the user name.

FIG. 13B is a diagram illustrating an embodiment related to informationon a duration of an object being included in text informationcorresponding to a user voice.

In the text information corresponding to the user voice, information ona duration of an object may be included. Further, if information on theduration of the object is included in the text information correspondingto the user voice, the electronic device 100 may provide a notificationrelated to the duration of the object Here, the notification related tothe duration of the object may be provided not only through the display110, the speaker, and the like of the electronic device 100, but alsoprovided through a display, a speaker, and the like of a user terminalconnected with the electronic device 100.

For example, if the text information corresponding to the user voice is“drink the milk in the refrigerator by today” and if information on theduration of the object such as “by today” is included in the textinformation corresponding to the user voice, the electronic device 100may display the notification related to the duration of the object onthe display 110. Specifically, as illustrated in FIG. 13B, theelectronic device 100 may display the notification related to theduration of the object such as “expiration date of milk has one dayleft” 1310 on the display 110, and may display an image 1320 related to“milk” in addition thereto.

Meanwhile, if the information on the duration of the object is includedin the text information corresponding to the user voice, the electronicdevice 100 may provide a notification related to the duration of theobject at a pre-set time interval until the point in time at which itcorresponds to the information on the duration of the object. Forexample, if the text information in the user voice is “drink the milk inthe refrigerator by today,” the electronic device 100 may provide anotification related to the duration of the object such as “theexpiration date of milk has n hours remaining” at hourly intervals untilmidnight of the date the text information corresponding to the uservoice is obtained. That is, if the electronic device 100 is arefrigerator and the object included in the text informationcorresponding to the user voice is a food product inside therefrigerator, the electronic device 100 may provide a notificationrelated to a freshness of the food product.

Meanwhile, the electronic device 100 may provide notifications relatedto a duration of an object using different methods according to thedistance between the point in time at which the notification is providedand the point in time corresponding to the information on the durationof the object. For example, if the text information corresponding to theuser voice is “drink the milk in the refrigerator by tomorrow,” theelectronic device 100 may provide a notification related to the durationof the object by displaying the memo UI through the display 110 of theelectronic device 100 at the point in time at which the text informationcorresponding to the user voice is obtained, and after three hours,provide a notification related to the duration of the object bydisplaying the memo UI in a color that is different from that of threehours prior, and after another three hours, provide a notificationrelated to the duration of the object through the display of the userterminal, and after another three hours, provide a notification relatedto the duration of the object through the display of the user terminalwhile concurrently output a voice related to the duration of the objectthrough the speaker.

Here, providing a notification related to the duration of the objectthrough the user terminal may mean the electronic device 100transmitting information on the notification related to the duration ofthe object to the user terminal, and the user terminal providing thenotification related to the duration of the object in the user terminalbased on information on the notification related to the duration of theobject received from the electronic device 100.

Meanwhile, if the first object from among the at least one objectincluded in the first image is identified as the object corresponding tothe user voice, and if information on the duration of the first objectis included in the text information corresponding to the user voice, theelectronic device 100 may obtain the second image, and provide anotification related to the duration of the object only when the firstobject is identified in the obtained second image.

Here, the second image may refer to an image obtained by capturing thesame location as the first image after the first image is obtained. Thepoint in time at which the second image is obtained may be the point intime after a pre-set time from the point in time at which the firstimage is obtained. The first image and the second image may be obtainedby capturing the same location according to the pre-set time interval,and furthermore obtained by capturing the same location based on apre-set event occurring.

For example, based on the electronic device 100 being a refrigerator,the first image may be an image obtained by capturing a specificlocation inside the refrigerator. In this case, “milk” included in thefirst image may be identified as the object corresponding to the uservoice, and if information on the duration of “milk” is included in thetext information corresponding to the user voice, the electronic device100 may obtain the second image by capturing the location which iscaptured when obtaining the first image. Then, the electronic device 100may provide a notification related to the duration of the object onlywhen “milk” is identified in the obtained second image.

Meanwhile, even after the point in time corresponding to the informationon the duration of the object has passed, if an object corresponding tothe user voice is present, the electronic device 100 may provide anotification different from that of the previous prior to the point intime corresponding to information on the duration of the object passingas a notification related to the duration of the object. For example, ifthe text information corresponding to the user voice is “drink the milkin the refrigerator by today,” and if “milk” is present even aftermidnight of the day the text information corresponding to the user voiceis obtained, the electronic device 100 may also provide a notificationsuch as “milk in the refrigerator must be thrown out.”

Meanwhile, in the above, information on the duration of the object maynot only be included clearly in the text information corresponding tothe user voice, but may also be obtained based on information on atleast one object included in the text information. For example, ifinformation on the object “milk” is included in the informationcorresponding to the user voice, the electronic device 100 may obtaininformation on the duration of the object that the consumption durationof “milk” is 5 days based on information on the consumption duration pereach pre-stored object, and provide the notification related to theduration of the object.

According to the various embodiments of the disclosure as describedabove, the electronic device 100 may, if information of the duration ofthe object is included in the text information corresponding to the uservoice, further improve user convenience by providing notificationsrelated to the duration of the object in various methods.

FIG. 13C is a diagram illustrating an embodiment related to informationon a user intent being included in text information corresponding to auser voice.

In the above, the various embodiments according to the disclosure havebeen described focusing on information on at least one object includedin the image being included in the text information corresponding to theuser voice, but information on a user intent may also be included in thetext information corresponding to the user voice. Further, theinformation on the user intent may be obtained through the NLU module asdescribed above with reference to FIG. 3B.

As described above, the NLU module may perform a syntactic analysis anda semantic analysis on the text information corresponding to the uservoice, and obtain information of the user intent.

Specifically, the NLU module classifies a grammatical unit (e.g., word,phrase, morpheme, etc.) of the obtained text information, and identifieswhich grammatical element the classified grammatical unit includes.Then, the NLU module may determine the meaning of the text informationbased on the identified grammatical elements. In addition, the NLUmodule may obtain information on the user intent by matching the meaningof the determined text information with an identified domain, aplurality of intent which is included in the identified domain, and aplurality of parameters or slots. For example, by matching the meaningof the determined text with “alarm” which is the identified domain and“set alarm” and “cancel alarm” which is the plurality of intent includedin the identified domain, and by matching “time” which is a parameternecessary in expressing the user intent to the “number of timesrepeated,” “alarm sound,” and the lie, the information on the userintent may be obtained.

As described above, if information on the user intent is obtainedthrough the NLU module, the electronic device 100 may perform anoperation related to the user intent. Specifically, if information onthe user intent is included in the text information corresponding to theuser voice, the electronic device 100 may identify an applicationcapable of performing the operation related to the user intent, andperform an operation related to the user intent through the identifiedapplication. The embodiment with respect to the above has been describedbelow with reference to examples as illustrated in FIG. 13C.

As described previously, based on the electronic device 100 being arefrigerator, the electronic device 100 may obtain an inside image ofthe electronic device 100, and identify “cucumber sandwich” 1340 as theat least one object included in the obtained image. In addition, theelectronic device 100 may receive the user voice, perform voicerecognition on the received user voice, and obtain text information 1330such as “eat the cucumber sandwich and order 3 kg of strawberries only”as text information corresponding to the user voice.

Then, the electronic device 100 may, as the object corresponding to theuser voice from among the at least one object included in the image,identify the “cucumber sandwich” 1340, and display the memo UI 1350including text information such as “eat the cucumber sandwich and order3 kg of strawberries only” on the area corresponding to “cucumbersandwich” 1340 from among the areas of the display.

Meanwhile, the electronic device 100 may perform natural languageunderstanding on the obtained text information, and obtain informationon the user intent such as “order 3 kg of strawberries.” In this case,the electronic device 100 may identify a shopping application as anapplication related to the user intent of ““order 3 kg of strawberries”from among the applications stored in the electronic device, and add the“3 kg of strawberries” to a shopping list provided through the shoppingapplication.

Meanwhile, if information on the user intent is included in the textinformation corresponding to the user voice, the object corresponding tothe user intent may not only be identified based on the text informationcorresponding to the user voice as illustrated in FIG. 13C, but also beidentified based on the touch interaction of the user. For example, ifinformation on the user intent such as “must buy” and “add to” isincluded in the text information corresponding to the user voice, and ifthe touch interaction of the user is received on an area correspondingto “strawberry” from among the areas on the display, the electronicdevice 100 may obtain information on the user intent such as “orderstrawberries.” Then, the electronic device 100 may identify a shoppingapplication as the application related to the user intent of “orderstrawberries,” and add the “strawberry” to the shopping list providedthrough the shopping application. According to the embodiment asdescribed above, the electronic device 100 may, based on information ofthe user intent being included in the text information corresponding tothe user voice, further improve user convenience by additionallyproviding a function related to the user intent in addition to providingthe memo UI.

FIG. 14 is a diagram illustrating an embodiment related to displaying amemo UI on a home screen provided through an electronic device 100.

In the above, the embodiment of displaying the memo UI on the areacorresponding to the object identified as corresponding to the uservoice from among the areas of the display has been described, but thearea in which the memo UI according to the disclosure is displayed innot limited thereto, and may be displayed on various UI areas providedby the operating system (O/S) of the electronic device 100.

For example, based on the electronic device 100 being a smart phone, thememo UI according to the disclosure may be displayed as a memo UI 1410of a widget form on a home screen of the smart phone as illustrated inFIG. 14 . In addition thereto, the memo UI may also be displayed on anotification bar, a locked screen, or the like of the smart phone.

Meanwhile, based on the memo UI being displayed on various UI areas asdescribed above, the size and form of the UI may be varied according tothe area in which the memo UI is to be displayed.

FIGS. 15A and 15B are diagrams illustrating an embodiment related to aposition of an object corresponding to a user voice being moved orhaving disappeared.

As described above, the electronic device 100 according to thedisclosure may display the memo UI including text information whichcorresponds to the user voice on the area corresponding to the objectidentified as corresponding to the user voice from among the areas onthe display.

However, the location of the object identified as corresponding to theuser voice may be moved after the memo UI according to the disclosure isdisplayed. Here, the movement of the object identified as correspondingto the user voice may be identified by comparing the location of theobject identified as corresponding to the user voice within the firstimage obtained prior to the memo UI according to the disclosure iddisplayed and the location of the object identified as corresponding tothe user voice within the second image obtained after the memo UI isdisplayed.

Here, the second image may be the image obtained by capturing the samelocation as with the first image after the first image is obtained.Then, the first image and the second image may be obtained by capturingthe same location according to the pre-set time interval, and furtherthe first image and the second image may also be obtained by capturingthe same location based on a pre-set event occurring. For example, basedon the electronic device 100 being a refrigerator, the electronic device100 may obtain the first image by capturing a specific location insidethe refrigerator when a pre-set event occurring such as the operation ofa door of the refrigerator opening and closing, and obtain the secondimage by capturing the captured location when obtaining the first imageif the pre-set event occurs again such as the operation of the door ofthe refrigerator opening and closing after the first image is obtained.

Meanwhile, the location of the object identified as corresponding to theuser voice within the first image and the second image may be identifiedbased on at least one from among a coordinate value of a center point ofan object within the image, a coordinate value of a feature point, and acoordinate value of text information.

Based on the movement of the object corresponding to the user voicebeing identified, the electronic device 100 may display the memo UI onthe area corresponding to the location of the object which is moved fromamong the areas on the display. Specifically, the electronic device 100may delete the memo UI which was displayed on the area corresponding tothe location prior to the object corresponding to the user voice beingmoved from among the areas on the display, and display a memo UI on anarea corresponding to the location the object corresponding to the uservoice is moved from among the areas of the display.

For example, as illustrated in FIG. 15A, the electronic device 100 maydelete the memo UI 1520 which was displayed on the area corresponding tothe location 1510 prior to the “sandwich” being moved which is theobject corresponding to the user voice from among the areas on thedisplay, and display a memo UI 1540 on an area corresponding to thelocation 1530 of the “sandwich” which was moved from among the areas onthe display.

Meanwhile, the object corresponding to the user voice may be deletedafter the memo UI according to the disclosure is displayed. Here, thedeletion of the object corresponding to the user voice may also beidentified using the same method as the movement of the object asdescribed above.

Based on the deletion of the object corresponding to the user voicebeing identified, the electronic device 100 may display a deleting UI1550. Here, the deleting UI 1550 may refer to a user interface whichallows the user to select whether or not to delete the memo UI displayedon the display. Then, when a user input selecting to delete thedisplayed memo UI is received through the deleting UI 1550, theelectronic device 100 may delete the memo UI displayed on the display.In the above, the deleting of the memo UI may mean selecting so that thememo UI displayed on the display is not displayed on the display.

For example, as illustrated in FIG. 15B, when deleting of the objectcorresponding to the user voice is identified, the electronic device 100may display the deleting UI 1550 including elements such as “delete?,”“YES” and “NO” together with the image on the displayed memo UI on thedisplay. Then, when a user input selecting to delete the displayed memoUI is received through the deleting UI 1550, the electronic device 100may delete the memo UI displayed on the display.

According to the various embodiments of the disclosure as describedabove, the electronic device 100 may improve user experience even afterthe user voice is uttered by providing a user interface reflecting themovement and deletion of the object corresponding to the user voice.

FIG. 16 is a diagram illustrating in brief a structure of a refrigeratorrelated to the disclosure based on an electronic device 100 according tothe disclosure being a refrigerator.

As described above, the electronic device 100 according to thedisclosure is not limited to an electronic device 100 of a specifictype, but the electronic device 100 according to this specificdisclosure may be a refrigerator. Further, as illustrated in FIG. 16 ,the refrigerator may include a display 110, a front camera 1610, innercameras 1620 and 1630, and the like. In addition thereto, therefrigerator may include a main body including a cool air supplier, astorage container, a plurality of doors, a hinge which connects theplurality of doors with the main body, and the like, but configurationsrelated to the embodiments of the disclosure will be focused on anddescribed below.

The display 110 may output image data. Specifically, the display 110 mayoutput an image pre-stored in the memory by the control of theprocessor. Specifically, the display 2110 according to the disclosuremay display an image including at least one object by the control of theprocessor, and may display a user interface such as the memo UI, theselecting UI and the deleting UI.

Meanwhile, the display 110 according to the disclosure may beimplemented as a transparent display. The transparent display may beimplemented to include a transparent oxide semiconductor film and mayhave a transparent property, and accordingly, may display an object oran image arranged at the rear surface of the display 110. Specifically,based on the electronic device 100 according to the disclosure being arefrigerator, the display 110 may be implemented as a transparentdisplay. Then, if the display 110 is implemented as a transparentdisplay, the electronic device 100 may project the at least one objectarranged inside the refrigerator on the transparent display or transmitthrough the transparent display, and display the image including the atleast one object on the transparent display.

Meanwhile, the display 110 may be arranged at an outside of the at leastone door from among the plurality of doors. Further, the display 110 mayinclude both the transparent display 110 and a generic display 110. Inaddition, the display 110 may be arranged at a location adjacent withthe speaker (not shown), and provide the user with an overall experienceof a visual experience through the display 110 together with an auditoryexperience through the speaker.

The inner cameras 1620 and 1630 may capture the inside of therefrigerator. Specifically, the inner cameras 1620 and 1630 may includea camera 1620 according to the related art and a spectrum camera 1630capable of obtaining a spectrum image. The inner cameras 1620 and 1630may be arranged inside of the plurality of doors and capture the insideof the refrigerator as illustrated in FIG. 16 , and accordingly, theelectronic device 100 may obtain the inside image of the refrigerator.Then, the inside image of the refrigerator obtained through the innercameras 1620 and 1630 may be displayed on the display 110.

Meanwhile, a close proximity sensor may be arranged at the locationadjacent to the inner cameras 1620 and 1630. Then, when an operation ofat least one from among the plurality of doors opening and closing beingdetected through the proximity sensor, the electronic device 100 maycapture a specific location inside the refrigerator through the innercameras 1620 and 1630 and obtain an inside image of the refrigerator.

The front camera 1610 may capture an outside of the refrigerator.Specifically, the front camera 1610 may capture the outside of therefrigerator by being arranged at a location suitable for capturing theoutside of the refrigerator like an upper part of the display 110, andaccordingly, an outside image of the refrigerator may be obtained.Specifically, the front camera 1610 may capture the user outside of therefrigerator.

Then, when the user image is obtained through the front camera 1610, theelectronic device 100 may perform object recognition on the user imageobtained as described above and identify the user who uttered the uservoice. Then, when the user who uttered the user voice is identified, theelectronic device 100 may determine the size, the font, the color, andthe like of the text information displayed through the memo UIdifferently according to the identified user, and also transmit the textinformation corresponding to the user voice to the user terminal of theidentified user.

FIG. 17 is a block diagram illustrating in detail a configuration of anelectronic device 100 according to the disclosure.

As illustrated in FIG. 17 , the electronic device 100 may not onlyinclude the microphone 120, the memory 130, and the processor 140, butalso include a communicator 150, a camera 160, a speaker 170, an inputbutton 180, and the like. However, the configurations such as the aboveare exemplary, and new configurations may be added in addition to theconfigurations described above or some configurations may be omitted inrealizing the disclosure. Because the microphone 120, the display 110,the memory 130, and the processor 140 have been described above withreference to FIGS. 3A and 3B, the communicator 150, the camera 160, thespeaker 170, and the input button 180 will be described below.

The communicator 150 comprises circuitry, and may perform communicationwith an external device. Specifically, the processor 140 may receivevarious data or information from the external device connected throughthe communicator 150, and transmit various data or information to theexternal device.

The communicator 150 may include at least one from among a WiFi module,a Bluetooth module, a wireless communication module, and a NFC module.Specifically, each of the WiFi module and the Bluetooth module mayperform communication through a WiFi method and a Bluetooth method. Whenusing the WiFi method or the Bluetooth method, various connectioninformation such as SSID may first be transmitted and received, andvarious information may be transmitted and received after performingcommunication connection using the same.

In addition, the wireless communication module may perform communicationaccording to the various communication standards such as, for example,and without limitation, IEEE, Zigbee, 3rd Generation (3G), 3rdGeneration Partnership Project (3GPP), Long Term Evolution (LTE), 5thGeneration (5G), or the like. Further, the NFC module may performcommunication in a near field communication (NFC) method using a 13.56MHz band from among various RF-ID frequency bands such as 135 kHz, 13.56MHz, 433 MHz, 860-960 MHz, and 2.45 GHz.

Specifically, according to the disclosure, the processor 140 may beconfigured to control the communicator 150 to transmit at least one fromamong the obtained image and the received user voice to the externaldevice, and receive at least one from among the information on theobject included in the image and text information corresponding to theuser voice from the external device through the communicator 150. Inaddition, based on the name of the user which is pre-stored in the textinformation corresponding to the user voice being included, theprocessor 140 may be configured to control the communicator 150 totransmit the text information to the user terminal corresponding to theuser name.

The camera 160 may be arranged at the inside or outside of theelectronic device 100, and capture an image on the inside or outside ofthe electronic device 100. Then, the processor 140 may obtain the imageon the inside or the outside of the electronic device 100 through thecamera 160. Specifically, based on the electronic device 100 accordingto the disclosure being a refrigerator, the processor 140 may not onlyobtain the an image of an inside of the refrigerator by capturing theinside of the refrigerator when a pre-set even occurs such as theoperation of the door of the refrigerator opening and closing, but alsoobtain an image inside of the refrigerator by capturing the inside ofthe refrigerator at pre-set time intervals.

The speaker 170 may output sound. Specifically, the speaker 170 mayoutput sound based on an audio data according to the disclosure by thecontrol of the processor 140. Specifically, based on information on theduration being included in the text information corresponding to theuser voice according to the disclosure, the processor 140 may beconfigured to output sound related to the information on the durationthrough the speaker 170. Then, the processor 140 may obtain a responsevoice on the user voice according to the disclosure, and output theobtained response voice through the speaker 170.

The input button 180 may receive user inputs of various types.Specifically, the input button 180 according to the disclosure mayreceive a trigger input for performing voice recognition. The triggerinput may not only be received through the microphone 120 in the form ofthe user voice including the pre-set trigger word, but may also bereceived through the input button 180 arranged on the electronic device100 so as to receive the trigger input. Here, the input button 180 maynot only be a physical button arranged physically outside of theelectronic device 100, but also a soft button implemented in the form ofa UI that is displayed on a touch display 110.

FIGS. 18A and 18B are diagrams illustrating an embodiment related to anindicator being provided according to the disclosure.

As described through FIG. 2 , the received user voice may be the subjectof voice recognition in its entirety, but only a portion from among thereceived user voice may be the subject of voice recognition. Here, theuser voice which is the subject of voice recognition may be specifiedbased on the pre-set starting point and the end point.

Specifically, according to an embodiment of the disclosure, the startingpoint and the end point for specifying the user voice which is thesubject of voice recognition may be specified based on the touchinteraction of the user received on the display. Specifically, theelectronic device 100 may perform voice recognition on the received uservoice from the point in time at which the pre-set touch interaction isreceived until the point in time at which the touch interaction of theuser is ended as corresponding to the trigger input of the user on thedisplay and obtain the text information corresponding to the user voice.

Meanwhile, while the touch interaction of the user is being maintainedon the display, the electronic device 100 may display an indicatorindicating that the user voice received while the indicator is beingdisplayed is subject to voice recognition on the display. Specifically,when the touch interaction of the user is received on the display, theelectronic device 100 may display the indicator indicating that the uservoice which is received while the indicator is being displayed issubject to voice recognition, and when the touch interaction of the userreceived on the display is terminated, the displayed indicator may bedeleted.

For example, the indicator according to the disclosure may be providedthrough a UI 1810 of a microphone shape as illustrated in FIG. 18A, anda message such as “voice recognition in progress” may be providedthrough the UI 1820 as illustrated in FIG. 18B.

As described above, when the indicator according to the disclosure isprovided, the user of the electronic device 100 is able to grasp thatthe user voice received while the indicator is displayed is subject tovoice recognition, and may perform utterance so as to correspond to thetext information desired to be displayed through the memo UI.Accordingly, the electronic device 100 may display the memo UIcorresponding to the user intent.

FIG. 19 is a diagram illustrating an embodiment of an object recognitionand a voice recognition process according to the disclosure beingperformed through a server connected with an electronic device 100.

In the above, the various embodiments of the disclosure have beendescribed assuming that processes according to the disclosure by theelectronic device 100 are all performed in the electronic device 100,but the disclosure is not limited thereto. That is, at least someprocesses from among the processes according to the disclosure may beperformed through the external device or the server. Specifically, atleast one process from among the object recognition and voicerecognition according to the disclosure may be performed through theobject recognition module and/or the server including the ASR module.

The process of object recognition and voice recognition according to thedisclosure being performed entirely through the server will be describedbelow with reference to FIG. 19 , but redundant descriptions which havebeen described above will be omitted.

The electronic device 100 may obtain an image including at least oneobject (S1910). When the image including the at least one object isobtained, the electronic device 100 may transmit the obtained image tothe server (S1915). Then, the server may identify the at least oneobject included in the image based on the received image (S1920). Whenthe at least one object included in the image is identified, the servermay transmit information on the at least one object to the electronicdevice 100 (S1925).

Meanwhile, the electronic device 100 may receive the user voice (S1930).When the user voice is received, the electronic device 100 may transmitthe received user voice to the server (S1935). The server may obtaintext information corresponding to the user voice based on the receiveduser voice (S1940). Then, when the text information corresponding to theuser voice is obtained, the server may transmit the text informationcorresponding to the user voice to the electronic device 100 (S1945).

Meanwhile, the electronic device 100 may identify the objectcorresponding to the received user voice from among the at least oneobject included in the image (S1950). The object corresponding to theuser voice may be identified based on at least one from among the textinformation corresponding to the user voice and the received touchinteraction of the user

Then, when the object corresponding to the user voice is identified, theelectronic device 100 may display the memo UI including text informationon the area corresponding to the object identified as corresponding tothe user voice from among the areas on the display (S1955).

Meanwhile, in the above, the process of object recognition and voicerecognition being performed entirely through one server has beendescribed, but the process of object recognition and voice recognitionaccording to the disclosure may also be performed through a plurality ofservers capable of performing each process.

According to the various embodiments of the disclosure as describedabove with reference to FIGS. 1 to 19 , according to the variousembodiments of the disclosure as described above, the electronic device100 may display the memo UI on the area desired by the user based ononly the text information corresponding to the user voice without aseparate user manipulation of designating an area for the memo UIincluding text information to be displayed on the display.

In addition, the electronic device 100 may specify the user voice whichis the subject of voice recognition based on the touch interaction ofthe user while concurrently determine the area to which the memo UI isto be displayed, and display the memo UI.

Accordingly, the user of the electronic device 100 may generate textinformation corresponding to the user voice through the user interfaceusing an intuitive and convenient method, and display the generated textinformation in an area on the display corresponding to the user intent.

Meanwhile, the control method of the electronic device 100 as describedabove, the control process of the processor and the various embodimentsaccording thereto may be implemented as a program and provided to theelectronic device 100. Specifically, the program which includes thecontrol method of the electronic device 100 may be stored in anon-transitory computer readable medium and provided.

Here, the non-transitory computer readable medium may refer to a mediumthat stores data semi-permanently rather than storing data for a veryshort time, such as a register, a cache, a memory, or the like, and isreadable by a device. Specifically, the various applications or programsdescribed above may be stored in the non-transitory computer readablemedium, such as, for example, and without limitation, a CD, a DVD, ahard disc, a Blu-ray disc, a USB, a memory card, a ROM, and the like andprovided.

Meanwhile, at least one from among the plurality of modules aredescribed above may be implemented through the artificial intelligencemodel. The function related to the artificial intelligence according tothe disclosure may be performed through the memory and the processor.

The processor may be included of one or a plurality of processors. Atthis time, the one or plurality of processors may be a generic useprocessor such as a CPU, an AP, or the like, a graphics dedicatedprocessor such as a GPU, a VPU, or the like, or an artificialintelligence dedicated processor such as an NPU.

The one or plurality of processors may be configured to control for theinput data to be processed according to a pre-defined operation rule oran artificial intelligence model stored in the non-volatile memory andthe volatile memory. The pre-defined operation rule or the artificialintelligence model is characterized by being generated through learning.

Here, being generated through learning may refer to a pre-definedoperation rule or an artificial intelligence model being created of adesired characteristic by applying a learning algorithm to the multiplelearning data. This learning may be carried out in the device itself inwhich the artificial intelligence according to the disclosure isperformed or carried out through a separate server/system.

The artificial intelligence model may be included of a plurality ofneural network layers. Each layer may include a plurality of weightvalues, and may perform processing of the layer through the processingresults of a previous layer and the processing of the plurality ofweight values. Examples of the neural network may include aConvolutional Neural Network (CNN), a Deep Neural Network (DNN), aRecurrent Neural Network (RNN), a Restricted Boltzmann Machine (RBM), aDeep Belief Network (DBN), a Bidirectional Recurrent Deep Neural Network(BRDNN), a Generative Adversarial Networks (GAN), and a Deep-Q Networks,but the neural network in the disclosure is not limited to theabove-described examples unless otherwise specified.

The learning algorithm is a method of training a predetermined subjectdevice (e.g., robot) by using multiple learning data so that thepredetermined subject device is able to self-determine or predict.Examples of the learning algorithm may include supervised learning,unsupervised learning, semi-supervised learning, or reinforcementlearning, and the learning algorithm of the disclosure is not limited tothe above-described example unless otherwise specified.

While the disclosure has been shown and described with reference to theexemplary embodiments thereof, the disclosure is not limited to theembodiments specifically described and various modifications may be madetherein by those skilled in the art to which this disclosure pertainswithout departing from the spirit and scope of the disclosure, and suchmodifications shall not be understood as separate from the technicalconcept or outlook of the present disclosure.

What is claimed is:
 1. An electronic device, comprising: a display; amicrophone; a memory configured to store at least one instruction; and aprocessor configured to execute the at least one instruction, whereinthe processor is configured to: identify, based on an image including atleast one object being obtained, at least one object included in theimage by analyzing the image; obtain, based on a user voice beingreceived through the microphone, text information corresponding to theuser voice by performing voice recognition on the user voice; identifywhether an object among the at least one object included in the imagecorresponds to the obtained text information; based on the objectcorresponding to the text information being identified, identify an areaof the display corresponding to the identified object; and control thedisplay to display, on the identified area, a memo user interface (UI)including the text information.
 2. The electronic device of claim 1,wherein the processor is configured to identify, based on information onthe at least one object included in the image being included in theobtained text information, an object corresponding to information on theat least one object from among the at least one object included in theimage as the object corresponding to the text information.
 3. Theelectronic device of claim 1, wherein the processor is configured toidentify, based on a touch interaction being received on the displaywhile the user voice is being received, an object corresponding to anarea in which the touch interaction is received from among areas on thedisplay as the object corresponding to the text information.
 4. Theelectronic device of claim 3, wherein the processor is configured tocontrol the display to display the image on the display, and identify anobject displayed on the area in which the touch interaction is receivedfrom among the areas on the display as the object corresponding to thetext information.
 5. The electronic device of claim 3, wherein theprocessor is configured to perform voice recognition on the user voicewhich is received while the touch interaction is being maintained on thedisplay from among the user voice received through the microphone andobtain the text information corresponding to the user voice.
 6. Theelectronic device of claim 3, wherein the processor is configured todetermine at least one from among a size and form of the memo UI basedon a coordinate value of a touch interaction received on the display,and control the display to display the memo UI based on at least onefrom among the determined size and form on the area corresponding to theobject identified as corresponding to the text information.
 7. Theelectronic device of claim 1, wherein the area corresponding to theobject identified as corresponding to the text information comprises anarea in which the object identified as corresponding to the textinformation is displayed on the display and an area within a pre-setdistance from the area in which the object identified as correspondingto the text information is displayed on the display.
 8. The electronicdevice of claim 1, wherein the processor is configured to control, basedon there being two or more objects identified as corresponding to thetext information, the display to display a selecting UI includinginformation on the two or more objects on the display, and identify,based on a user input selecting one object from among the two or moreobjects being received through the selecting UI, the selected one objectas the object corresponding to the text information.
 9. The electronicdevice of claim 1, wherein the processor is configured to obtain, basedon a pronoun being included in the obtained text information, textinformation in which the pronoun is changed to a name of the objectidentified as corresponding to the text information, and control thedisplay to display a memo UI including the text information on the areacorresponding to the object identified as corresponding to the textinformation.
 10. The electronic device of claim 1, further comprising: acommunicator comprising circuitry, wherein the processor is configuredto control, based on a name of a pre-stored user being included in theobtained text information, the communicator to transmit the obtainedtext information to a user terminal corresponding to the name of thepre-stored user.
 11. A control method of an electronic device comprisinga display, the method comprising: identifying, based on an imageincluding at least one object being obtained, at least one objectincluded in the image by analyzing the image; obtaining, based on a uservoice being received, text information corresponding to the user voiceby performing voice recognition on the user voice; identifying an objectcorresponds to the obtained text information; based on the objectcorresponding to the text information being identified, identifying anarea of the display corresponding to the identified object; anddisplaying, on the identified area, a memo user interface (UI) includingthe text information.
 12. The method of claim 11, wherein theidentifying whether the object corresponds to the text informationcomprises identifying, based on information on the at least one objectincluded in the image being included in the obtained text information,an object corresponding to information on the at least one object fromamong the at least one object included in the image as the objectcorresponding to the text information.
 13. The method of claim 11,wherein the identifying whether the object corresponds to the textinformation comprises identifying, based on a touch interaction beingreceived on the display while the user voice is being received, anobject corresponding to an area in which the touch interaction isreceived from among areas on the display as the object corresponding tothe text information.
 14. The method of claim 13, wherein theidentifying whether the object corresponds to the text informationcomprises: displaying the image on the display; and identifying anobject displayed on the area in which the touch interaction is receivedfrom among the areas on the display as the object corresponding to thetext information.
 15. The method of claim 13, wherein the obtaining thetext information corresponding to the user voice comprises obtainingtext information corresponding to the user voice by performing voicerecognition on the user voice received while the touch interaction isbeing maintained on the display from among the received user voice.